The present invention relates to a can seamer that can process cans of rectangular shape or cans of different size or shape, without using a profiling cam.
In a case where cans of rectangular shape or cans of different size and shape are manufactured by seaming a lid to an end portion of a can body by using a curl roller and a tightening roller, a profiling cam has been conventionally prepared that matches the cross-sectional shape of the can body and the can seaming operation has been performed by moving the curl roller and tightening roller with respect to the transverse section of the can. In this case, each time the cross-sectional shape of the can body changes, a new profiling cam has to be used, and the profiling cam replacement is a time-consuming and troublesome operation. Therefore, the automatic production line is stopped when the profiling cam is replaced, thereby causing very large loss. Furthermore, the number of replacement parts increases and these parts are difficult to manage. In addition, adjustments by skilled technicians are required for the profiling cam replacement and can seaming operation, and the cost is difficult to reduce.
Accordingly, in recent years, where cans of different size or shape are manufactured by seaming a lid to an end portion of a can body by using a curl roller and a tightening roller, for example, a can production device such as suggested by Japanese Patent Application Laid-open No. 2001-259766 is employed as a device that uses no profiling cam. With this device, when a can of a cross-sectional shape different from a perfect round shape, for example, of an elliptical shape is processed, it is possible to conduct strain-free uniform seaming such that a curl seam processing line adapted to this can has a constant speed. This production device has a structure such that a can is produced by seaming a can body and lids at both sides of the can body in rotary dies provided at a base seat and a suppressing seat that faces the base seat and can move to and from the base seat, wherein the suppressing seat, rotary dies, curl roller, and tightening roller are coupled to respective servo motors, the cross-sectional shape and height of the can body, number of feed steps of the curl roller and tightening roller, the feed amount for each step, and the rotation speed of the rotary dies are written in a numerical control unit, and the servo motors are successively actuated based on the information written in the numerical control unit.
However, Japanese Patent Application Laid-open No. 2001-259766 mainly relates to a production device that can process cans of a cross-sectional shapes different from a perfectly round shape, such as an elliptical shape, that is used as an outer shell of an automotive muffler, and neither describes nor suggests a can seamer in accordance with the present invention that can process cans of rectangular shape or cans of different size or shape, without using a profiling cam.
It is an object of the present invention to provide a can seamer that does not require the replacement of a profiling cam or skilled operations, reduces the number of replaceable parts, makes it possible to simplify the replacement operation, may be adapted to various can shapes, significantly shortens the time required for the replacement operations, and may reduce labor and significantly increase productivity.
The present invention has been created to overcome the above-described drawbacks. The can seamer in accordance with the present invention is characterized in including at least a chuck that fixes a can body, a curl roller, a tightening roller, a holding ring, and a guide ring that may move in X-axis and Y-axis directions, wherein the curl roller and the tightening roller are rotatably mounted opposite each other on the inside of the holding ring, and the holding ring is rotatably mounted on the guide ring. The holding ring may be mounted so as to be capable of moving horizontally, on a rotary drive ring that is disposed above the holding ring, and it is preferred that an X-axis table and a Y-axis table be mounted on the guide ring, and the X-axis table and the Y-axis table be driven by servo motors.
As set forth in claim 1, a can seamer for manufacturing a can by seaming a lid W2 to an end portion of a can body W1 by using a curl roller 2 and a tightening roller 3 includes at least a chuck 1 that fixes the can body W1, the curl roller 2, the tightening roller 3, a holding ring 4, and a guide ring 6 that can move in X-axis and Y-axis directions, wherein the curl roller 2 and the tightening roller 3 are rotatably mounted opposite each other on the inside of the holding ring 4, and the holding ring 4 is rotatably mounted on the guide ring 6. Therefore, a profiling cam is unnecessary. As a result, when cans that differ in size or shape are seamed, the replacement of the profiling cam or skilled operations are unnecessary, the number of replaceable parts can be reduced, the replacement operation can be simplified, the device can be adapted to various can shapes, the time required for the replacement operations is significantly shortened, labor can be reduced, and productivity can be significantly increased. In particular, downtime of the automatic production line can be greatly shortened, thereby making it possible to reduce the cost.
As set forth in claim 2, where the holding ring 4 is mounted so as to be capable of moving horizontally, on a rotary drive ring 10 that is disposed above the holding ring 4, the periphery of the fixed can may be seamed in a simple manner.
As set forth in claim 3, where an X-axis table 7 and a Y-axis table 8 are mounted on the guide ring 6, and the X-axis table 7 and the Y-axis table 8 are driven by servo motors 14, 16, the guide ring 6 can be accurately shifted in the X-axis direction and Y-axis direction and moved according to the cross-sectional shape of the can body W1. As a result, seaming of cans of any shape or size can be realized.
The reference numeral 11 stands for a transmission means for rotary drive that serves to transmit the power of a servo motor 12 for rotary drive to the rotary drive ring 10. The transmission means for rotary drive 11 includes a timing pulley 11a that is fixed to the rotary drive ring 10, a drive pulley 11b that is mounted on the distal end of the servo motor 12 for rotary drive, and a belt 11c that connects the drive pulley 11b and the timing pulley 11a. The reference numeral 13 stand for a transmission means for X-axis movement that serves to transmit the power of a servo motor 14 for X-axis movement to the X-axis table 7. The transmission means 13 for X-axis movement is disposed therein the track member 9 for enabling the X-axis table 7 having the guide ring 6 fixed to the upper surface thereof to move smoothly in the left-right direction in
The operation according to the present invention will be explained below. Initially, the mechanism of the present embodiment by which the holding ring 4 is rotated by the rotary drive ring 10 and moved in the horizontal direction will be explained with reference to
The mechanism of the present embodiment by which the guide ring 6 is operated so that it can move in the X-axis and Y-axis direction will be described below with reference to
The structure by which a pressure is applied to the holding ring 4 by the pressurization roller 5 inserted into the groove of the guide ring 6 will be explained below with reference to
The can seaming operation conducted by using the can seamer in accordance with the present invention, without using a profiling cam, will be explained below with reference to
The curl roller 2 then reaches the corner of the lid W2, and when the curl roller passes the corner, the distance r gradually increases before the distal end of the corner portion and gradually decreases thereafter. Therefore, after the curl roller 2 passes the position shown in
In the present embodiment of the invention, the curl roller 2 and tightening roller 3 are used separately from each other, the operation performed when the curl roller 2 and tightening roller 3 move along the outer circumferential of the lid W2, while matching the cross-sectional shape of the can lid W1, uses the servo motor 12 for rotary drive, servo motor 14 for X-axis movement, and servo motor 16 for Y-axis movement, and the control thereof is automatically performed according to the preset program. Further, with the basic control method in accordance with the present invention, by setting the distance r from the center of the can shape and the rotation angle by numerical control with the servo motors 12, 14, and 16, it is possible to adapt the device to a variety of can shapes or sizes and conduct tracing. As a result, a large number of profiling cams are not required, the conventional mechanical parts that have been required for each can become unnecessary, the replacement of seaming heads when changing a can shape is unnecessary, the required operation time can be greatly shortened, the amount of labor can be reduced, and productivity can be greatly increased.
As described hereinabove, the can seamer in accordance with the present invention is useful as a device for seaming cans of non-circular cross-sectional shape that is suitable for seaming cans of rectangular shape or other non-circular cross-sectional shape, without using a profiling cam, and can be adapted to cans of different shape or size by a simple operation such as setting and changing the program for drive controlling the servo motors, in particular as a seamer for seaming cans of various shapes and sizes.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2007/062999 | 6/28/2007 | WO | 00 | 12/28/2009 |
Publishing Document | Publishing Date | Country | Kind |
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WO2009/001459 | 12/31/2008 | WO | A |
Number | Name | Date | Kind |
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5358369 | Katou et al. | Oct 1994 | A |
6151942 | Itaya | Nov 2000 | A |
20090200321 | Oohori et al. | Aug 2009 | A1 |
Number | Date | Country |
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2001-259766 | Sep 2001 | JP |
2005-000930 | Jan 2005 | JP |
2007-014982 | Jan 2007 | JP |
2007-229730 | Sep 2007 | JP |
2006123637 | Nov 2006 | WO |
Entry |
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International Search Report of PCT/JP2007/062999, mailing date of Sep. 25, 2007. |
Notification of Transmittal of Translation of the International Preliminary Report on Patentability (Forms PCT/IB/338) of International Application No. PCT/JP2007/062999 mailed Feb. 4, 2010 with Forms PCT/IB/373 and PCT/ISA/237. |
Supplementary European Search Report dated Apr. 4, 2011, issued in corresponding European Patent Application No. 07767793.8. |
Number | Date | Country | |
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20100196123 A1 | Aug 2010 | US |