JPS6212579Y2 - - Google Patents

Description

[Detailed description of the invention] This invention relates to an ultrasonic processing machine that applies ultrasonic vibration to a workpiece made of a polymerized sheet-like thermoplastic resin material and welds the workpiece using the resulting frictional heat. The purpose is to provide an ultrasonic processing machine that can prevent a workpiece from elongating due to heat generation during welding using ultrasonic vibrations and from remaining as wrinkles with large undulations.

An embodiment of the present invention will be described below based on the drawings. That is, in FIG. 1, 1 is a workbench that forms part of the machine frame, a frame 2 is fixed to the lower surface of the workbench 1, and a pair of supports 3 are fixed to the frame 2. There is. A pair of supports 3
A transducer assembly 4 is supported rotatably around a vertical line, and the transducer assembly 4 is rotated in one direction via a belt 6 by a motor 5, which is a driving member fixed to the frame 2. Driven. Further, the transducer assembly 4 incorporates an ultrasonic transducer 7, which includes a pair of slip rings 8 fixed to the transducer assembly 4 and a pair of contactors 9 fixed to the frame 2. A high frequency current is supplied from a high frequency generator (not shown) to generate ultrasonic vibrations. A processing horn 10 is connected to the upper part of the ultrasonic transducer 7 via an amplification horn (not shown). The upper part of the machining horn 10 is formed in a cylindrical shape, and the annular machining surface 11 that is the upper end surface vibrates ultrasonically in the vertical direction. The processing surface 11 is exposed on the upper surface and is arranged so as to be on the same level as the upper surface of the workbench 1.

On the other hand, a support stand 13 is fixed to the upper surface of the workbench 1, and at the base of this support stand 13 there are first and second horizontal lines extending from the left side to the right side of the support stand 13, as shown in FIG. A guide groove 14 is formed, and the first guide groove 14 is formed.
A support stand 13 is placed above the guide groove 14 and parallel to it.
from the right side to the left side of the second guide groove 1.
5 is formed. The rear part of this support stand 13 (first
On the left side in the figure, a first roller support 17 rotatably supporting a presser roller 16 is supported so as to be movable in the vertical direction. This first roller support 17 holds the roller 16 at an upper position away from the machining surface 11 of the machining horn 10 when the presser foot lifting lever 18 is lifted upward, and the presser foot lifting lever 18
When the presser roller 16 is lowered downward, the presser roller 16 is pressed against the processing surface 11 by a compression spring (not shown). Support stand 13
A motor 20, which is a driving member for rotationally driving the presser roller 16, is fixed to one side of the cover 19, which is fixed to the upper part and houses the above-mentioned compression springs. It is transmitted to the presser roller 16 via the presser roller 16. 22 and 23 are a pair of upper and lower pressing rollers arranged near the rear of the processing horn 10 and the presser roller 16, and the lower pressing roller 23 is a support member 2 fixed to the workbench 1.
4 is rotatably supported. Further, the upper pressing roller 22 is rotatably supported by a second roller support 26 that is vertically movably supported at the lower part of a support frame 25 attached to the rear part of the cover 19, and the presser roller 16
The presser roller 16 is connected to the presser roller 16 via a belt 27 and rotates at the same speed as the presser roller 16. In this case, the upper pressing roller 22 and the lower pressing roller 23 are arranged parallel to each other, and their contact portions are located on one plane. An adjustment screw 28 is screwed into the upper part of the support frame 25, and the pressing force of the upper pressing roller 22 against the lower pressing roller 23 is adjusted by adjusting the spring force of the compression spring 29 by advancing and retracting the adjusting screw 28. It is configured so that it can be done. In addition, the upper pressing roller 22
The pressing force on the lower pressing roller 23 is preferably adjusted to about 50 kg/cm ² .

In order to weld workpieces using the apparatus having such a configuration, first, operate the presser foot lifting lever 18 to hold the presser foot roller 16 in the upper position, and then press the second
As shown in the figure, the right edge of a sheet-shaped first workpiece 30 made of thermoplastic resin is inserted into the first guide groove 14, and a sheet-like second workpiece 31 also made of thermoplastic resin is inserted. Insert the left edge of into the second guide groove 15. With the edges of the first and second workpieces 30 and 31 overlapped in this way, the presser foot lifting lever 18 is operated to lower the presser foot roller 16 and the workpieces 30 and 31 are moved to the processing surface 11. hold it in place. In this state, when ultrasonic vibration is generated in the machining horn 10 and the motors 5 and 20 are driven, the workpieces 30 and 31 are moved into the first and second guide grooves 14 and 15.
The two workpieces 30 and 31 are welded together. Then, the welded area is sequentially fed into a pair of pressing rollers 22 and 23 rotating at the same speed as the feeding speed of the workpieces 30 and 31, and pressed from above and below. By the way, heat is generated during welding by ultrasonic vibration on the processing surface 11, but if we wait for the natural cooling, the workpieces 30 and 31 will be completely stretched by the heat, resulting in large undulations. It will remain as wrinkles. However, according to the present invention, after heat welding,
The welded portion is immediately moved to a pair of pressing rollers 22, 2.
3, and is pressed by both rollers 22 and 23 before it cools down to ensure the joining of the welded portion, and at the same time, both pressing rollers 2
Even though the heat capacity of the welding rollers 2 and 23 is large, the welding portion is forcibly cooled by having the pressure rollers 22 and 23 absorb the heat of the welding portion.
In this case, since the pressure rollers 22 and 23 are pressed against the welded portion, the contact between the welded portion and the pressure rollers 22 and 23 is ensured, and the pressure from the welded portion to the pressure rollers 22 and 23 is ensured. Heat transfer occurs reliably and smoothly, thereby ensuring that the welded portion is cooled. Therefore, the spread of heat from the welded portions of the non-processed parts 30, 31 to the adjacent portions on both sides thereof is suppressed as much as possible, and thereby the elongation of the welded portions on both sides adjacent portions is suppressed as much as possible. Therefore, the elongation of the welded part due to the welding heat is pulled in the opposite direction to the elongation direction by the non-elongated parts near both sides of the welded part, and as a result, as shown by the two-dot chain line in FIG. The wrinkles no longer remain as large undulations, and even if they remain, they become small undulations as shown by the solid line in Figure 3, resulting in a better appearance.

According to the present invention described above, it is possible to press the welded part of the workpiece with a pair of pressure rollers to ensure the joint and at the same time forcibly cool it, so that wrinkles due to elongation of the welded part are reduced to undulations. It is possible to provide an ultrasonic processing machine that is small enough to be less noticeable and can perform welding with good appearance.

[Brief explanation of the drawing]

The drawings show one embodiment of the present invention, in which Fig. 1 is a partially cutaway side view of the whole, Fig. 2 is a longitudinal sectional front view taken along the line - in Fig. 1, and Fig. 3 is a view of the workpiece. FIG. 3 is a side view showing a wrinkled state of a welded portion. In the figure, 5 is a motor (driving member), 7 is an ultrasonic vibrator, 10 is a processing horn, 11 is a processing surface, and 16
is a presser roller, 20 is a motor (driving member), 2
2 and 23 are pressure rollers, and 30 and 31 are workpieces.

Claims (1)

[Scope of utility model registration request] a machining horn connected at one end to an ultrasonic vibrator and at the other end for ultrasonically vibrating a machining surface formed thereon and rotatably supported around an axis passing through the center of the machining surface; In order to transfer a sheet-like workpiece made of a thermoplastic resin material sandwiched between presser rollers disposed facing each other and the presser rollers and the processing surface, at least one of the processing horn and the presser roller is used. The ultrasonic roller is equipped with a drive member that rotationally drives one of the two, and a pair of pressing rollers that rotate at approximately the same speed as the transfer speed of the drive member in order to press the welding cylinder of the workpiece after welding from above and below. Sonic processing machine.