JPS6226302B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for manufacturing containers. For example, as shown in Figure 1, a cultivation container 1 for use as a stand, which is convenient for cultivating vegetables, flowers, etc. in a narrow space such as a 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 a metal plate
The end face member is made of synthetic resin. These conventional manufacturing methods require advanced welding techniques for joints when they are entirely made of metal plates such as aluminum alloy, and those made only of synthetic resin have weak strength and longitudinal 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 difficult joining technology between the metal plate and the synthetic resin. The present invention provides a container in which the longitudinal main body member of the container is a metal plate and the end member is made of synthetic resin, and the present invention provides a container in which the longitudinal main body member of the container is made of a synthetic resin, and the flange portion of the end member that abuts the longitudinal metal plate edge of the main body member. By applying ultrasonic vibration and pressing force between the two, the synthetic resin on the joint surface is melted in a short time, and the edge of the metal plate is press-fitted into the flange, and the two are shortened. This allows containers to be constructed by welding them together in a timely manner.The main body and end members are reliably and watertightly welded together with a simple operation, creating lightweight, durable, highly productive, and economical containers. It has been made possible to provide. Next, the contents will be explained based on an embodiment shown in the attached drawings. 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 has a cross section V with both ends open in this example.
The end face member 3 is made of a synthetic resin and has a gutter-like shape, and is made of synthetic resin and closes both open end faces of the main body member 2. As shown in FIG. 3 c, which is a sectional view taken along the line E in FIG.
1 and a flange portion 5 extending in the longitudinal direction,
Further, the flange portion 5 is connected to a thin flange portion 6 along the metal plate in the longitudinal direction of the main body member 2 and an end face edge portion 4′, and is composed of a base flange portion 7 whose thickness is increased from the thin flange portion 6 toward the metal plate side in cross section. . Further, between the thin flange portion 6 and the base flange portion 7, there is formed a narrow groove 8 having a V-shaped cross section at the back, into which the end edge of the main body member 2 is inserted. To construct the container, as shown in FIG . After the holding die 11 is fitted into this, a pedestal 12 provided at the center of the upper surface of the die is inserted.
By pressing with the air cylinder 13 , the main body member 2 is firmly fixed on the workbench 9 . Next, place the end member 3 made of synthetic resin so that the tip of the flange portion 5 faces the open end face of the main body member 2, and the end edge 2' of the main body member 2 faces the groove 8 in the end member 3 (Fig. 4). (see a), then a workbench 9 ' provided adjacent to the workbench 9.
The contact 14' of the ultrasonic generator 14 above is brought into contact with the back surface 4'' of the end face 4 of the attachment 14'' for effectively transmitting ultrasonic vibrations, which is attached to the tip of the contact 14', and then the ultrasonic generator 14 is activated. By operating a push rod (not shown) provided in the ultrasonic generator 14 , the attachment 14'' attached to the tip of the contactor 14' moves the back surface 4 of the end member 3 while emitting ultrasonic waves. Press ”. Due to the ultrasonic vibrations transmitted from the contactor 14', a frictional heat generation phenomenon occurs between the end edge 2' of the main body member 2 and the inner surface of the groove 8, and the synthetic resin in this area melts, causing the end face member 3 to melt. The edge 2' of the body member 2 is inserted into the groove 8.
bites deeply. At that time, a part of the molten synthetic resin material is removed from the escape prevention recess 15 provided at the edge.
(In the illustrated example, the concave portion is shown as a plurality of holes, but this may also be a suitable concave strip.)
This will prevent it from falling off and maintain watertightness (see Figure 4b). By further applying this operation to the other end face of the main body member 2, the container 1 is completed. 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 cross section in this example, the container may have a quadrilateral or other shape in cross section. Needless to say, there is no problem. According to the present invention, the end face member 3 is molded using a molding method using synthetic resin, so even if the flange portion has a somewhat complicated shape, it can be easily molded, and the main body member 2 is also made of an aluminum alloy plate or aluminum alloy. It can also be produced as an extruded material, so both have good productivity. In addition, the main body member 2 and the end member 3 can be joined together in a single hour by a simple operation that does not require special skill as a complete container that is watertight and has no fear of separation. It has the characteristics of good productivity, stable quality, lightweight, robust, and inexpensive containers that can be easily provided.

[Brief explanation of the drawing]

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. 3a is a rear perspective view of the end member. , FIG. 3b is a front perspective view of the end member, FIG. 3c is a cross-sectional view taken along line E in FIG.
Figure a is a partial sectional view showing a state in which the edge of the main body member faces the groove of the flange part of the end face member, and Figure 4 b shows a state in which the edge of the main body member is press-fitted into the groove of the flange part and fixed. FIG. 2 is a partial cross-sectional view showing the arrows indicating the direction of the pressure applied by the contacts of the ultrasonic generator. FIG. 5 is a perspective view schematically showing a device for coupling the main body member and the end member using an ultrasonic generator, and arrows in the figure indicate the direction of operation of the end member and the contact. 1 ... Container, 2... Main body member in the longitudinal direction of the container, 3 ... End face member, 4... End face, 4'... End face edge, 4''... Back face, 5 ... Flange part, 6......
Thin flange part, 7... Base flange part, 8...
Groove, 13 ...Air cylinder, 14 ...Ultrasonic generator, 15...Concave part.

Claims (1)

[Claims] 1. In a container in which the longitudinal body member is a metal plate and the end member is made of synthetic resin, the end member includes a face member constituting the end face and a flange portion extending in the longitudinal direction from the edge of the end face. And so,
The flange portion includes a thick base flange portion having a narrow groove having a V-shaped cross section into which an end edge of the main body member is press-fitted;
A thin flange portion is formed by slightly extending one side of the narrow groove in the longitudinal direction along the main body member, and the metal portion of the main body member is press-fitted into the base flange portion and buried in the synthetic resin member. A concave portion is formed at the edge of the metal plate, the edge of the main body member is brought into contact with the narrow groove of the base flange, and pressure is applied to this from the back surface of the end face while applying ultrasonic vibration, thereby forming the edge of the metal plate. A method for manufacturing a container, which comprises press-fitting the base flange into a narrow groove and welding the base flange to the edge of a metal plate in a short period of time to construct the container.