JPS58158215A - Manufacture of container - Google Patents

Abstract

PURPOSE:To efficiently obtain a container made of metal plate and synthetic resin by such an arrangement wherein the edge of a main body member made of metal plate is brought to contact with a groove between flanges of an edge surface member made of synthetic resin, and while supersonic vibration is given to the edge surface member from its back, the main body member is pushed into the groove with pressure applied. CONSTITUTION:A longitudinal main body member made of metal plates 2 and an edge surface member made of synthetic resin 3 composed of an edge surface 4, a thin flange unit 6 and a base flange unit 7 are procured. The edge 2' of the main body member 2 is brought to contact with a V-like thin groove 8 formed between the thin flange unit 6 and the base flange unit 7 of the edge surface member 3, and the attachment of a contactor of a supersonic wave generator is applied to the back 4'' of the edge surface 4, and the edge surface 4 is pressurized while being given with supersonic vibration. By this, the edge 2' of the main body member 2 is caused to enter the groove 8 with pressure applied, and at the same time frictional heat melts the synthetic resin and the edge 2' of the main body member 2 is caused to further enter deeply into the groove 8 and join with molten resin.

Description

【発明の詳細な説明】 本発明は容器の製造方法に関する。[Detailed description of the invention] The present invention relates to a method for manufacturing a container.

例えば　第１図に示すように、団地のベランダのような
狭隘な場所で野菜とか草花等を栽培するのに便利なスタ
ンド用の栽培用容器（１）は　一般にアルミニウム合金
のような金属板を使用して　長手方向の容器の本体部材
と　端面である側蓋とを夫々別に製作して両者を溶接等
の方法で結合して構成するか、あるいは、全てを合成樹
脂で構成するか、もしくは、長手方向の本体部材は金属
板端面部材は合成樹脂で構成する等の方法がとられてい
る。For example, as shown in Figure 1, a cultivation container (1) for a stand that is convenient for growing vegetables, flowers, etc. in a narrow space such as the balcony of a housing complex is generally made of a metal plate such as an aluminum alloy. Either the main body member of the container in the longitudinal direction and the side lid, which is the end surface, are manufactured separately and then joined together by welding or other methods, or they are all made of synthetic resin, or The main body member in the direction is made of a metal plate, and the end face member is made of synthetic resin.

これら、従来の製造方法によるものは、全てをアルミニ
ウム合金のような金属板で構成する場合は接合部に高度
な溶接技術を必要とし、また、合成樹脂のみによるもの
は強度的に弱く、長手方向の本体部材を金属板　端面部
材を合成樹脂で構成する容器は　金属板と合成樹脂との
接合技術が難かしく　生産性が悪い等の欠点があった。These conventional manufacturing methods require advanced welding techniques for the joints when they are entirely made of metal plates such as aluminum alloy, and those made only of synthetic resin have weak strength in the longitudinal direction. Containers in which the main body member is a metal plate and the end members are synthetic resin have drawbacks such as poor productivity due to the difficulty of joining the metal plate and synthetic resin.

本発明は、容器を構成する長手方向の本体部材は金属板
で、また、端面部材は合成樹脂で構成する容器に詔いて
、本体部材の長手方向金属板端縁と　これに当接する端
面部材のフランジ部との間に　超音波振動を付与すると
共に両者間に押圧力を加えて、もって接合面部の合成樹
脂を短鉢刹に溶融し、かつ、金属板端縁をフランジ部内
に圧入・　すると共に両者を短時間に溶着して容器を構
成することができるようにしたもので、本体部材と端面
部材とを簡単な操作で　確実かつ水密的に溶着し　軽量
で丈夫な　しかも　生産性に富み　経済的な容器を提供
できるようにしたものである。The present invention provides a container in which the longitudinal main body member constituting the container is a metal plate, and the end face member is made of synthetic resin, so that the lengthwise metal plate edge of the main body member and the end face member abutting the end face member are connected to each other. Ultrasonic vibration is applied between the metal plate and the flange, and a pressing force is applied between the two to melt the synthetic resin on the joint surface into a short pot, and press-fit the edge of the metal plate into the flange. It is possible to construct a container by welding both together in a short time.The main body member and the end face member are reliably and watertightly welded with a simple operation, making it lightweight, durable, highly productive, and economical. This makes it possible to provide a container with a wide range of uses.

つぎに添付した図面に示す実施例に基づいて内容を説明
する。Next, the contents will be explained based on the embodiments shown in the attached drawings.

容器（１）を構成するアルミニウム合金板等の金属板か
らなる長手方向の本体部材（２）は第２図の斜視図で示
すように　本例では両端が開口した断面Ｖ字形の樋状の
ものからなり、この本体部材（２）の開口した両端面を
閉塞する合成樹脂からなる端面部材（３）は　第３図（
りに示す背面斜視図、第３図（ｂ）に示す正面斜視図お
よび第３図（ｂ）におけるイーイ断面視図である第３図
（ｃ）で示すように、容器（１）の端面を構成する端面
（４）および端面縁部（４′）より容器（１）の長手方
向に伸びる７ラング部（５）とよりなり、更に、フラン
ジ部（５）は本体部材（２）の長手方向の金属板に沿う
薄手フランジ部（６）と端面縁部（ｆ）につながり　薄
手フランジ部（６）より　断面において金属板側に増厚
した基部フランジ部（７）とよりなる。As shown in the perspective view of Fig. 2, the longitudinal main body member (2) made of a metal plate such as an aluminum alloy plate constituting the container (1) is a gutter-like member with a V-shaped cross section with both ends open. The end face member (3) made of synthetic resin that closes both open end faces of this main body member (2) is shown in Figure 3 (
The end face of the container (1) is shown in FIG. 3(c), which is a rear perspective view shown in FIG. It consists of seven rungs (5) extending in the longitudinal direction of the container (1) from the constituting end face (4) and end face edge (4'), and furthermore, the flange part (5) extends in the longitudinal direction of the main body member (2). It consists of a thin flange part (6) along the metal plate and a base flange part (7) connected to the end face edge (f) and thickened from the thin flange part (6) toward the metal plate side in cross section.

また、薄手フランジ部（６）と基部フランジ部（７）と
の間には　本体部材（２）の端縁部が挿入される　奥部
が断面Ｖ字状の細溝（８）が形成される。Furthermore, a narrow groove (8) with a V-shaped cross section at the back is formed between the thin flange part (6) and the base flange part (7), into which the end edge of the main body member (2) is inserted. .

容器を構成するには、第５図に示すように、ます、作業
台（９）上に固定された支承用治具（１ｏ）内に本体部
材（２）を収容し、ついで、本体部材（２）の内面に沿
う外周面を持った押型（１１）をこれに嵌入したのち、
この押型の上面中央部に設けられた台座（Ｊ２）をエア
シリンダー（１３）で押圧することにより本体部材（２
）を作業台（９）上にしっかりと固定する。To construct the container, as shown in FIG. 2) After fitting the mold (11) with an outer circumferential surface along the inner surface of the mold into this,
By pressing the pedestal (J2) provided at the center of the upper surface of this mold with an air cylinder (13), the main body member (2
) on the workbench (9).

ついで　合成樹脂からなる端面部材（３）を、そのフラ
ンジ部（５）の先を本体部材（２）の開口端面に向け、
本体部材（２）の端線ｚ）が端面部材（３）における溝
（８）に臨むようにあてがい（第４図（−）参照）、つ
いで、波発生装置（１４）の接触子（１１）の先端に取
付けた超音波振動を有効に伝えるためのアタッチメン）
（１４’）を端面（４）の背面（り）に当接させ、しか
る後超音波発生装置（１４）を作動させ、超音波発生装
置（１４）内に設けられた押杆（図示せず）を操作する
ことにより　接触子（１４’）の先端に取付けられたア
タッチメン）　（１！’）は超音波を発射しながら端面
部材（３）の背面（４＃）を押圧する。Next, the end face member (3) made of synthetic resin is turned with the tip of its flange (5) facing the open end face of the main body member (2),
Place the end line z) of the main body member (2) so that it faces the groove (8) in the end member (3) (see Fig. 4 (-)), and then insert the contact (11) of the wave generator (14). Attachment attached to the tip of the device to effectively transmit ultrasonic vibrations)
(14') is brought into contact with the back surface (ri) of the end face (4), and then the ultrasonic generator (14) is activated, and the push rod (not shown) provided in the ultrasonic generator (14) is ), the attachment (1!') attached to the tip of the contactor (14') presses the back surface (4#) of the end member (3) while emitting ultrasonic waves.

接触子（１４’）から伝えられる超音波振動により、本
体部材（２）の端艇ｚ）部と溝（８）の内面との間には
摩擦発熱現象が生じ、綾部の合成樹脂が溶融し、端面部
材（３）の溝（８）内に本体部材（２）の端縁ａ）が深
く喰い込む。その際　溶融した合成樹脂材の一部は端縁
部に設けられた脱出防止用凹窩部（１５）　（図例では
凹窩部は複数個の穴で示したが、これは適当な凹条とし
てもよい。）内に流入固化し、脱落を防止し水密を保つ
こととなる（第４図（ｂ）参照）。Due to the ultrasonic vibration transmitted from the contactor (14'), a frictional heat generation phenomenon occurs between the end boat (z) part of the main body member (2) and the inner surface of the groove (8), and the synthetic resin of the twill part melts. The end edge a) of the main body member (2) digs deeply into the groove (8) of the end face member (3). At that time, a portion of the molten synthetic resin material is removed from the escape prevention recess (15) provided at the edge (in the example, the recess is shown as a plurality of holes, but this is an appropriate recessed groove). ) and solidify, preventing them from falling off and maintaining watertightness (see Figure 4(b)).

この操作を更に本体部材（２）の他の端面にも施すこと
により容器（１）は完成する。By further performing this operation on the other end face of the main body member (2), the container (1) is completed.

以上において、超音波発生装置（１４）は市販のものを
使用すればよく、また、容器の形状は本例では断面Ｖ字
状のものを示したが、断面が四辺形あるいはその他の形
状のものであっても差支えないことはいうまでもない。In the above, it is sufficient to use a commercially available ultrasonic generator (14), and although the shape of the container is V-shaped in this example, it is possible to use a container with a quadrilateral or other shape in cross-section. Needless to say, there is no problem.

本発明によれば、端面部材（３）は合成樹脂による型造
り法により成型されるので　フランジ部が多少複雑な形
状をしていても簡単に成形でき、また、本体部材（２）
もアルミニウム合金板あるいはアルミニウム合金の押出
型材としても生産しうるので、いずれも生産性はよい。According to the present invention, the end face member (3) is molded by a synthetic resin molding method, so even if the flange part has a somewhat complicated shape, it can be easily molded, and the main body member (2)
It can also be produced as an aluminum alloy plate or an aluminum alloy extrusion material, so both have good productivity.

また、本体部材（２）と端面部材（３）とは、特に熟練
を必要としない簡単な操作で　単時間のうちに水密的に
緊密で全く離脱の恐れのない完全な１体の容器として結
合されるので、生産性が良く、品質が安定し、軽量で堅
牢かつ安価な容器を容易に提供することができる特徴が
ある。In addition, the main body member (2) and the end member (3) can be joined together in a single hour with a simple operation that does not require any special skill as a complete container that is watertight and has no fear of separation. As a result, it has the characteristics of high productivity, stable quality, and the ability to easily provide lightweight, robust, and inexpensive containers.

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

第１図は栽培用スタンドに本発明にかかる容器を用いた
例を示す斜視図、第２図は容器の長手方向の本体部材を
示す斜視図、第３図（−）は端面部材の背面斜視図、第
３図（ｂ）は端面部材の正面斜視図、第３図（Ｑ）は第
３図（ｂ）のイーイ断面視図、第４図（りは端面部材に
おけるフランジ部の溝に本体部材の端縁が臨んだ状態を
示す１部断面図、第４図（ｂ）はフランジ部の溝に本体
部材の端縁が圧入されて固着された状態を示す１部断面
図で、矢印はいずれも超音波発生装置の接触子によって
加えられる圧力の方向を示す。第５図は本体部材と端面
部材とを超音波発生装置を用いて結合する装置の概略を
示す斜視図で、図中矢印は端面部材差に接触子の作動の
方向を示す。 （１）　、　、。容器、（２）、、、容器の長手方向の
本体部材、（３）　、　、　、端面部材、（４）、、、
端面、（４’）、、、端面縁部、（４”）　　、、、背
面、（５）　、　、　、フランジ部、（６）、、、薄手
フランジ部、（７）、、、基部フランジ部、（８）、、
、溝、（１５）　、、、凹窩部。 某２図Fig. 1 is a perspective view showing an example of using the container according to the present invention in a cultivation stand, Fig. 2 is a perspective view showing the main body member in the longitudinal direction of the container, and Fig. 3 (-) is a rear perspective view of the end member. 3(b) is a front perspective view of the end member, FIG. 3(Q) is a sectional view of FIG. 3(b), and FIG. 4(b) is a front perspective view of the end member. FIG. 4(b) is a partial cross-sectional view showing a state in which the end edge of the main body member is press-fitted into the groove of the flange portion and fixed, and the arrow indicates Each shows the direction of pressure applied by the contact of the ultrasonic generator. Fig. 5 is a perspective view schematically showing a device for coupling the main body member and the end face member using the ultrasonic generator. indicates the direction of actuation of the contactor on the difference between the end members. ,
End face, (4'), End face edge, (4''), Back face, (5), Flange part, (6), Thin flange part, (7), Base flange part ,(8),,
, groove, (15) , , concave part. Certain 2 figures

Claims (1)

【特許請求の範囲】 １、長手方向の本体部材は金属板で　端面部材は合成樹
脂で構成した容器において、前記端面部材は　端面を構
成する面部材と　端面縁部より長手方向に伸びるフラン
ジ部とよりなり、該フランジ部は本体部材における長手
方向の金属板に沿う薄手フランジ部と　端面縁部につな
がり前記薄手フランジ部より断面において金属板側に増
厚した基部フランジ部とよりなり、該基部フランジ部端
面に長手方向の金属板の端縁を当接し、端面の背面より
これに超音波振動を付与しつつ加圧することにより　金
属板端縁を基部フランジ部内に圧入すると共に、金属板
端縁に基部７ランジ部を短時間に溶着して構成するよう
にしたことを特徴とする容器の製造方法。 ２、基部フランジ部内に挿入されその合成樹脂部材内に
埋没される部分の本体部材の金属板端縁に凹窩部を設け
た特許請求の範囲第１項記載の容器の製造方法。[Claims] 1. In a container in which the main body member in the longitudinal direction is a metal plate and the end member is made of synthetic resin, the end member includes: a face member constituting the end face; a flange portion extending in the longitudinal direction from the edge of the end face; The flange portion is made up of a thin flange portion along the metal plate in the longitudinal direction of the main body member, and a base flange portion connected to the end face edge and thickened from the thin flange portion toward the metal plate side in cross section. The edge of the metal plate in the longitudinal direction is brought into contact with the end face of the base flange, and by applying pressure while applying ultrasonic vibration from the back side of the end face, the edge of the metal plate is press-fitted into the base flange, and the edge of the metal plate is pressed into the base flange. A method for manufacturing a container, characterized in that the base 7 langes are welded together in a short period of time. 2. The method for manufacturing a container according to claim 1, wherein a concave portion is provided at the edge of the metal plate of the main body member at the portion inserted into the base flange portion and buried within the synthetic resin member.