101 |
METHOD FOR ANALYZING THE SOFTNESS OF A SHEET OF TISSUE PAPER |
US14374539 |
2013-01-30 |
US20140378284A1 |
2014-12-25 |
Gilbert Schohn; Hubert Pfister; Corinne Munerelle |
A method for determining the softness of a sheet of tissue paper through NIR spectrometry, includes, after having created a softness values model according to data obtained through NIR spectrometry for a set of reference tissue paper sheets, carrying out the spectral analysis of said sheet and determining the softness value on the basis of the model. The method includes obtaining the softness values of the reference tissue paper sheets of the model through sensory analysis. |
102 |
RECORDING MEDIUM PROCESSING APPARATUS, RECORDING MEDIUM PROCESSING SYSTEM, AND NON-TRANSITORY COMPUTER READABLE MEDIUM |
US14049747 |
2013-10-09 |
US20140255127A1 |
2014-09-11 |
Masahiro YAMAGUCHI |
A recording medium processing apparatus includes a folding position setting unit. The folding position setting unit sets, on the basis of a cutting position at which a recording medium is to be cut, a folding position at which the recording medium is to be folded. |
103 |
METHOD FOR CONTROLLING SHEET PROCESSING APPARATUS |
US14005901 |
2012-02-15 |
US20140011654A1 |
2014-01-09 |
Takaaki Maeda; Akihiko Toki; Satoshi Ota; Shuhei Kosaka; Masasuke Funase |
In the control of a cutting mechanism of a sheet processing apparatus, when rear end cut region of a sheet is finely cut and divided into predetermined fine-cutting unit length, if sheet conveying direction length of rearmost end divided region is equal to or more than minimum reference length corresponding to the distance between cutting position of the cutting mechanism and nipping position of a pair of first conveying rollers and is less than maximum reference length in which predetermined fine-cutting unit length is added to minimum reference length, upper and lower blades of the cutting mechanism are held opened immediately after the downstream edge of rearmost end divided region is cut and the pair of first conveying rollers are driven at limited conveying speed lower than normal conveying speed. |
104 |
Method for producing a printed product |
US12910082 |
2010-10-22 |
US08556789B2 |
2013-10-15 |
Roland Grunder; Daniel Suter |
A method for producing a printed product in which a complete content of the printed product is printed sequentially in series on one or both sides along a paper web having a width based on a multiple of a width of a finished printed product, including cutting the paper web in a direction crosswise to a longitudinal direction of the paper web to produce a cut-off section having a length based on a multiple of a length of the finished printed product, folding the cut-off section at least once in the crosswise direction in a location based on the length of the finished product, and cutting one of the folded cut-off section subsequent to the folding or the paper web prior to the crosswise cutting, to form a plurality of partial webs each having a width based on the width of the finished printed product. |
105 |
Fragrance slide sampler |
US13694265 |
2012-11-15 |
US20130168463A1 |
2013-07-04 |
Sven Dobler; Herve Ferrec |
A fragrance slide sampler incorporating a fragrance card being coated on one surface with a microencapsulated fragrance and one or more cover elements comprising a first side and a second side, one side being exposed to the user, and the second side being in contact with the microencapsulated fragrance card surface. When the fragrance card is moved, relative to the contiguous cover element, the fragrance card releases its aroma to frictional rubbing against the contiguous cover element, and releases its fragrance through the cover element for enhancing the aroma of the ambient area. Additional means for containing the fragrance sample are disclosed. |
106 |
FOIL EMBOSSING DEVICE |
US13700950 |
2011-06-16 |
US20130069276A1 |
2013-03-21 |
Charles Boegli |
The foil embossing device comprises an embossing roller and two counter-rollers, one of the rollers being driven by a drive and the rollers having a configuration where the teeth, rings, or ridges project from the base cylinder, at least the embossing roller having teeth 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 has a diameter that is reduced by 0.02 to 0.20 mm over a certain length that is at least the same as the width of the foil. The length of the reduced diameter is preferably chosen so as to exceed the width of the foil being printed. Due to this depression, such a device allows a perfectly uniform embossing of foils of any kind independently of the design of the embossing rollers. |
107 |
Clothing Wipe |
US13606827 |
2012-09-07 |
US20130007973A1 |
2013-01-10 |
Ben Kusin; Charles C. Steward; Ronald C. Griepenburg; Edgardo Guce |
A clothing wipe includes an applicator having a novel odor neutralizing formulation deposited on one layer that is bonded to another layer to form a finger mitt. The applicator is removed from a pouch and rubbed against a person's clothing that may have accumulated a variety of smoke, food, and other odors during an outing. The odors clinging to the clothing are neutralized by contact with the odor neutralizing formulation. The applicator is stored in the pouch when not in use. A method of fabricating the clothing wipe in a web process is disclosed. |
108 |
Paper weaving kit |
US11718682 |
2005-11-07 |
US07757723B2 |
2010-07-20 |
Luz Java |
A paper weaving kit (100) has a box-like body (106). A top of the body (106) forms a weaving aid (107). A crimping apparatus (108) is mounted at one side of the body (106). A removable sheet tearing apparatus (109) is slidably mounted within the body (106) at a front end of the body (106). The sheet tearing apparatus (109) can be used to tear strips of paper from a sheet of newspaper or the like. This strip is then fed through the crimping apparatus (108) which crimps fold lines in the paper strip. The paper strip is then folded about the fold lines to form a weaving element. number of weaving elements are mounted side by side on a support panel (112) on the weaving aid (107). These are clamped against the support panel (112) by clamp (115) and thus form a number of juxtaposed warp weaving elements extending down the support panel (112). Weft weaving elements can then be woven through the warp weaving elements on the panel (112) to form a woven panel of paper weaving elements. |
109 |
PAPER WEAVING KIT |
US11718682 |
2005-11-07 |
US20090120525A1 |
2009-05-14 |
Luz Java |
A paper weaving kit (100) has a box-like body (106). A top of the body (106) forms a weaving aid (107). A crimping apparatus (108) is mounted at one side of the body (106). A removable sheet tearing apparatus (109) is slidably mounted within the body (106) at a front end of the body (106). The sheet tearing apparatus (109) can be used to tear strips of paper from a sheet of newspaper or the like. This strip is then fed through the crimping apparatus (108) which crimps fold lines in the paper strip. The paper strip is then folded about the fold lines to form a weaving element. number of weaving elements are mounted side by side on a support panel (112) on the weaving aid (107). These are clamped against the support panel (112) by clamp (115) and thus form a number of juxtaposed warp weaving elements extending down the support panel (112). Weft weaving elements can then be woven through the warp weaving elements on the panel (112) to form a woven panel of paper weaving elements. |
110 |
Photographic paper handling apparatus |
US909395 |
1986-09-19 |
US4758215A |
1988-07-19 |
Mikio Kogane |
A photographic paper handling apparatus for handling a photographic paper in a continuous form having a plurality of images sequentially printed thereon in the longitudinal direction thereof is provided with a cutting-perforating section and a folding section. In the cutting-perforating section, the photographic paper which is transported along a photographic paper transport passage is cut into pieces each including a series of images printed in accordance with the order placed by each individual customer, and a perforation is provided in an area of each of the cut pieces of photographic paper which is defined between each pair of adjacent images. In the folding section, each of the cut and perforated pieces of photographic paper is folded along each perforation. Accordingly, it is possible to prevent prints processed in accordance with one order from being mixed with those in accordance with another order. |
111 |
Apparatus for making precision holes in a web |
US30418172 |
1972-11-06 |
US3805649A |
1974-04-23 |
HESTER B |
A heated gas lamina flow web perforating apparatus including a tubing assembly and a mechanism for moving a web past the tubing assembly, means for heating the tubing assembly and a gas supply source which supplies surges of gas through the tubing assembly whereby the lamina gas flow is heated and is directed against the passing web so that precision holes are formed therein.
|
112 |
Method and apparatus for stretching and securing flexible sheets to a stiff support |
US3516145D |
1967-05-12 |
US3516145A |
1970-06-23 |
VILLAGRASA ISIDRO VENTURA |
|
113 |
Machines for handling sheets |
US53153566 |
1966-03-03 |
US3383929A |
1968-05-21 |
WALTER GRUTTER |
|
114 |
Method of making collars for necks of containers |
US47628565 |
1965-08-02 |
US3382779A |
1968-05-14 |
ANDREW LYNAS GARY |
|
115 |
Method of making a picture hanger |
US24449062 |
1962-12-13 |
US3174210A |
1965-03-23 |
MARGULIS JOSEPH M |
|
116 |
Reciprocable die mechanism including cooperating ejector means operative to halt the die movement |
US84279459 |
1959-09-28 |
US3104573A |
1963-09-24 |
STOOTHOFF STANLEY T |
|
117 |
Paper glove and method and apparatus for producing same |
US59182356 |
1956-06-18 |
US2950482A |
1960-08-30 |
WITHERS LOUIS A |
|
118 |
Machine for folding and cementing paper articles |
US62782256 |
1956-12-12 |
US2832269A |
1958-04-29 |
YONKERS JOHN L |
|
119 |
Mechanism for forming articles from strip material |
US42114554 |
1954-04-05 |
US2707360A |
1955-05-03 |
HARKER CHARLES B |
|
120 |
Method of making calendar mounts |
US79124147 |
1947-12-12 |
US2568458A |
1951-09-18 |
NICHOLS GORDON E |
|