121 |
Method of making rings for packages |
US20361638 |
1938-04-22 |
US2250533A |
1941-07-29 |
HANSON ROY E |
|
122 |
Method of making saturated gaskets |
US19471438 |
1938-03-08 |
US2175774A |
1939-10-10 |
SCHACHT ELMER C; OGLESBY NICHOLAS E |
|
123 |
Blank forming machine |
US18233627 |
1927-04-09 |
US1845203A |
1932-02-16 |
SIBLEY EDWARD W |
|
124 |
Paper article and process of producing the same |
US42411230 |
1930-01-28 |
US1771983A |
1930-07-29 |
KURT WANDEL |
|
125 |
Machine for making display cards |
US9298326 |
1926-03-06 |
US1661658A |
1928-03-06 |
GRAY JR GEORGE |
|
126 |
Machine for making paper fillers |
US17484127 |
1927-03-12 |
US1659314A |
1928-02-14 |
CREAMER EDGAR R |
|
127 |
Cornucopia-folding machine |
US75906024 |
1924-12-31 |
US1590652A |
1926-06-29 |
SHAFFER GLENN A; WIRTZ FRANKLIN H |
|
128 |
Vertical-file-folder machine |
US75342524 |
1924-12-02 |
US1574789A |
1926-03-02 |
BURGESS ROY H |
|
129 |
FOIL EMBOSSING DEVICE |
PCT/EP2011060047 |
2011-06-16 |
WO2011161002A3 |
2012-03-08 |
BOEGLI CHARLES |
The foil embossing device (1) comprises an embossing roller (2L) and two counter-rollers (3, 4), one of the rollers (2L) being driven by a drive (6) and the rollers having a configuration where the teeth, rings, or ridges project from the base cylinder, at least the embossing roller (2L) having teeth (5, 5B) that project from the base cylinder and at least partly also serve for driving the counter-roller. To increase the uniformity of the embossing of the foil, the embossing roller (2L) has a diameter (D2) that is reduced by 0.02 to 0.20 mm over a certain length (Sd) that is at least the same as the width (7d) of the foil. The length of the reduced diameter is preferably chosen so as to exceed the width (7d) of the foil being printed. Due to this depression (S), such a device allows a perfectly uniform embossing of foils of any kind independently of the design of the embossing rollers. |
130 |
DIE CUT INSULATION BLANKET |
PCT/US2009050991 |
2009-07-17 |
WO2010009394A9 |
2011-03-17 |
ROCKWELL ANTHONY L |
An expandable insulation blanket (10) includes a body of insulation material (12) having a first edge (14) and a second edge (16) wherein the first and second edges are opposite one another. A first slit (18) defines a first hinge point (20) between a first end (21) of the first slit and the first edge, a second hinge point (22) between a second end (23) of the first slit and the second edge and a third hinge point (24) between a third end (43) of the first slit and the first edge. A first hinge body (26) is outlined by the first slit, the first hinge point and the third hinge point. A second slit (28) extends across the first hinge body and defines a fourth hinge point (30) between the second slit and the first slit. When expanded the insulation body includes a substantially triangular shaped opening (62). |
131 |
DEVICE FOR SEPARATING INDIVIDUAL SECTIONS OF MATERIAL ACCORDING TO A CERTAIN FORMAT, FROM A STRIP-LIKE OBJECT, AND VARIABLE FOLDING SYSTEM COMPRISING LINEAR DRIVES, ESPECIALLY FOR PRINTING MACHINES |
PCT/EP2010058027 |
2010-06-08 |
WO2010142691A3 |
2011-03-10 |
BAUMUELLER ANDREAS; GOETZ FRITZ RAINER |
The invention relates to a method for producing individual material sections (11), especially sheets of paper, according to a certain format, from a strip-like, for example, printed object (object web) (1), especially a web of paper or material, using a cutting means (5, 7) for separating the individual material sections from the object web (1) and then removing said sections from the cutting means (5, 7). During the actuation of the cutting means, at least one driving element (4, 6, -20, -26) is engaged with the object web (1). Following the cutting process, the driving element is displaced together with the object strip (1, 25) gripped thereby, by means of a controllable linear drive (9), over a displacement course that is adjusted and/or varied in a controlled manner by the linear drive (9) according to a section format pre-defined for the material section (11). |