1 |
Ultrasonic joining method and ultrasonic joining device |
US14561456 |
2014-12-05 |
US09399330B2 |
2016-07-26 |
Ulrich Wieduwilt |
An ultrasonic joining method for connecting paper material (5), in particular paper, board or paperboard, comprising the following steps: introducing the paper material (5) into a gap (4) between a sonotrode (2) and an anvil (3), causing the sonotrode (2) to oscillate ultrasonically for the ultrasonic welding of the paper material (5), the paper material (5) being moistened with demineralized water (9), preferably on inner sides of joining points, before and/or during the ultrasonic welding. |
2 |
Apparatus for automatically gluing head and tail ends of stock material |
US14454002 |
2014-08-07 |
US09573336B2 |
2017-02-21 |
Greg Magnell; Jeffrey Willers; David G. Flessert |
Feedstock is delivered perpendicular to the line of applied glue in an automated gluing machine, thereby simplifying operation and better accommodating other in-line factory or assembly processes. The machine comprises an input nip for receiving the head end and the tail end of a sheet stock in overlapping registration, with the tail end being longer than the head end. A clamp mechanism holds the overlapping sheet stock in position while a glue applicator applies glue to one side of the tail end. An output nip holds the glued side of the tail end against the head end, and apparatus is provided for ejecting the sheet stock once the tail end has been glued to the head end. The glued stock may be ejected back toward the operator or away from the operator and through the machine, enabling the machine to be placed in-line with other machines for a continuous directional or linear flow. |
3 |
Infrared adhesive bead detector |
US297977 |
1994-08-30 |
US5582663A |
1996-12-10 |
Masafumi Matsunaga |
A system for detecting the presence of an object, it shape, length, size, etc., and if a heating material such as a hot melt adhesive applied to the object is applied to given places, or in the proper amount is accomplished by an infrared detection system which is not influenced by external disturbances. A radiant energy detection sensor is placed opposite a radiant energy source, and an object is moved between the radiant energy source and radiant energy detection sensor. |
4 |
ULTRASONIC JOINING METHOD AND ULTRASONIC JOINING DEVICE |
US14561456 |
2014-12-05 |
US20150165718A1 |
2015-06-18 |
Ulrich Wieduwilt |
An ultrasonic joining method for connecting paper material (5), in particular paper, board or paperboard, comprising the following steps: introducing the paper material (5) into a gap (4) between a sonotrode (2) and an anvil (3), causing the sonotrode (2) to oscillate ultrasonically for the ultrasonic welding of the paper material (5), the paper material (5) being moistened with demineralized water (9), preferably on inner sides of joining points, before and/or during the ultrasonic welding. |
5 |
APPARATUS FOR AUTOMATICALLY GLUING HEAD AND TAIL ENDS OF STOCK MATERIAL |
US14454002 |
2014-08-07 |
US20150041064A1 |
2015-02-12 |
Greg Magnell; Jeffrey Willers; David G. Flessert |
Feedstock is delivered perpendicular to the line of applied glue in an automated gluing machine, thereby simplifying operation and better accommodating other in-line factory or assembly processes. The machine comprises an input nip for receiving the head end and the tail end of a sheet stock in overlapping registration, with the tail end being longer than the head end. A clamp mechanism holds the overlapping sheet stock in position while a glue applicator applies glue to one side of the tail end. An output nip holds the glued side of the tail end against the head end, and apparatus is provided for ejecting the sheet stock once the tail end has been glued to the head end. The glued stock may be ejected back toward the operator or away from the operator and through the machine, enabling the machine to be placed in-line with other machines for a continuous directional or linear flow. |
6 |
輪転式エンボスユニットを用いて製品をエンボス加工する方法 |
JP2012235610 |
2012-10-25 |
JP6071416B2 |
2017-02-01 |
エーリヒ クラッセン |
|