101 |
Toothed belt reinforcing sheet, toothed belt and its manufacturing method |
JP2004336603 |
2004-11-19 |
JP2006144932A |
2006-06-08 |
AKIYAMA MITSUHARU; MIZUKOSHI NAOYA |
PROBLEM TO BE SOLVED: To provide a toothed belt reinforcing sheet capable of being easily manufactured to form a toothed belt with a toothed portion to be less broken in long time use, and to provide the toothed belt using the toothed belt reinforcing sheet and its manufacturing method.
SOLUTION: The toothed belt reinforcing sheet comprises a fiber sheet and a coating formed on the fiber sheet. The coating is formed by applying water-based treatment agent containing first rubber latex and vulcanizing agent as the main constituent to the fiber sheet and drying it. The water-based treatment agent includes the 10-100 mass part of vulcanizing agent in terms of the 100 mass part of first rubber.
COPYRIGHT: (C)2006,JPO&NCIPI |
102 |
Polyurethane foam sheet and method for producing a laminate sheet using the same |
JP2003420728 |
2003-12-18 |
JP3776428B2 |
2006-05-17 |
俊夫 丹羽; 淑文 玉木; 茂 田所; 善典 金川 |
|
103 |
Transfer belt |
JP2004274692 |
2004-09-22 |
JP2006091244A |
2006-04-06 |
MIYAMOTO YOSHITO |
<P>PROBLEM TO BE SOLVED: To provide a transfer belt having excellent uniformity of resistance while having sufficient conductivity and preventing occurrence of image noise. <P>SOLUTION: The transfer belt comprises: carbon black (A) comprising acidic carbon black having ≤6 pH or basic carbon black having ≥8 pH; a resin (B) comprising a resin which can function as an electron-pair donor or an electron-pair acceptor with respect to the carbon black (A); and a resin (C) comprising a polymer which functions neither as the electron-pair donor nor the electron-pair acceptor with respect to the carbon black (A). <P>COPYRIGHT: (C)2006,JPO&NCIPI |
104 |
Electrophotographic image receiving sheet and image formation method |
JP2003425593 |
2003-12-22 |
JP2005181881A |
2005-07-07 |
TANI YOSHIO |
<P>PROBLEM TO BE SOLVED: To provide an electrophotographic image receiving sheet of high quality having excellent toner fixability, adhesion resistance and traveling property in combination and an image formation method using the electrophotographic image receiving sheet. <P>SOLUTION: The electrophotographic image receiving sheet has a support and a toner image receiving layer on at least one surface of the support, wherein the toner image receiving layer contains a mixture composed of a linear amorphous polymer and a linear crystalline polymer, and the glass transition temperature (Tg1(°C)) of the linear amorphous polymer is 40 to 120°C and the melting point (Tm(°C)) of the linear crystalline polymer is 100 to 200°C. The embodiment that the glass transition temperature (Tg1(K)) of the linear amorphous polymer and the melting point (Tm(K)) of the linear crystalline polymer satisfy an expression: 1.0×Tg1(K)≤Tm(K)≤1.5×Tg1(K) or the like is more preferable. <P>COPYRIGHT: (C)2005,JPO&NCIPI |
105 |
Method for manufacturing laminated seamless belt, and laminated seamless belt |
JP2003373688 |
2003-10-31 |
JP2005134842A |
2005-05-26 |
TANAKA MASAKAZU; HATTORI TAKAYUKI |
<P>PROBLEM TO BE SOLVED: To provide a laminated seamless belt having superior durability and good transferability in the continued use and repeated use. <P>SOLUTION: The invention is a laminated seamless belt having at least two layers a base layer and an outer layer. The base layer contains a polyester thermoplastic elastomer as its main component, and has a volume resistivity set to not less than 1.0×10<SP>6</SP>nor more than 1.0×10<SP>11</SP>. A volume resistivity of the outer layer is set to not less than 1.0×10<SP>11</SP>and not less than 10 times as large as that of the base layer. The base layer and the outer layer are formed by laminated extrusion. <P>COPYRIGHT: (C)2005,JPO&NCIPI |
106 |
Extended nip (shoe) press belt and its manufacture |
JP5986289 |
1989-03-14 |
JPH0261191A |
1990-03-01 |
UIRIAMU EICHI DATSUTO |
PURPOSE: To easily manufacture an extended nip (shoe) press belt by inserting both a fabric base and a polymer sheet between upper and lower platens and an insert plate, and then subjecting them to thermo-compression bonding.
CONSTITUTION: This extended nip (shoe) press belt is manufactured by the following steps: (1) inserting an insert plate 3 between an upper platen 1 and a lower platen 2; (2) inserting a fabric base 4 between the upper platen 1 and the insert plate 3 and inserting the fabric base 4 between the lower platen 2 and the insert plate 3; (3) inserting polymer sheets 7, 7 between these fabric bases 4, 4 and the insert plate 3; (4) pressing both fabric bases and polymer sheets with and between the platens 1 and 2 so as to fuse each polymer sheet and to make the polymer penetrate into the fabric bases; (5) opening the upper and lower platens 1, 2, transferring the fabric bases, inserting other polymer sheets 7, 7 and performing the same treatment mentioned above.
COPYRIGHT: (C)1990,JPO |
107 |
JPS62111410U - |
JP20327185 |
1985-12-30 |
JPS62111410U |
1987-07-16 |
|
|
108 |
Method and device for forming melted stripe on semiiprocessed product for apparel |
JP3391477 |
1977-03-25 |
JPS52136050A |
1977-11-14 |
ERENA BUZESUKU; POORU SUTANSHIU; GEORUGE IONESUKU; DAN AREKUSE; GEORUGE MIYURAA; KURAUDEIA SUKANPIERU; IOAN BOIKU; IREANA IONESUKU; MARIAN POPA; TEITASU POPESUKU; KURASHIUN SUTORATSURATO; TEODORU IRIMIA |
|
109 |
JPS4997151A - |
JP485874 |
1973-12-28 |
JPS4997151A |
1974-09-13 |
|
|
110 |
METHOD FOR PRODUCING BELT, AND CYLINDRICAL MOLD AND CROSSLINKING APPARATUS USED THEREFOR |
US16118258 |
2018-08-30 |
US20180370079A1 |
2018-12-27 |
Kouichi TSUJINO; Hirokazu SAKURAI; Hisashi IZUMI; Masaki MIYANISHI; Yusaku TAOSHITA |
A method include: providing a cylindrical mold made of metal, a shaped structure having a cylindrical shape, a rotation mechanism configured to rotatably support the cylindrical mold, and an electromagnetic induction coil configured to heat the cylindrical mold through electromagnetic induction; setting the shaped structure inside the cylindrical mold; and molding a cylindrical belt slab by heating the cylindrical mold by the electromagnetic induction coil, while the cylindrical mold is rotated by the rotation mechanism and the shaped structure is pressurized from inside and pressed against the cylindrical mold. |
111 |
V-RIBBED BELT AND METHOD FOR MANUFACTURING SAME |
US15916092 |
2018-03-08 |
US20180195579A1 |
2018-07-12 |
Yuya Shindo |
A V-ribbed belt has a cord made of polyester-based fibers, the total fiber fineness of which is 2200 dtex or more and 5500 dtex or less. A fiber fineness of the cord per belt width corresponding to a single V-shaped rib ranges from 10000 dtex to 19000 dtex. A belt dry-heat shrinkage force per belt width corresponding to a single V-shaped rib is 44 N or more. The belt dry-heat shrinkage force is a load increase with respect to a belt length of 300 mm in 30 minutes after applying, in an atmosphere of 150° C., a load of 6N in the belt longitudinal direction and holding the belt. |
112 |
Anti-stick easy-release conveyor belts |
US15373940 |
2016-12-09 |
US09962906B1 |
2018-05-08 |
David J. Maguire; Thomas George Burrowes; Guangzhuo Rong |
A conveyor belt includes a cover layer defining a load carrying surface, a pulley engaging layer disposed parallel to the cover layer, and a carcass containing a reinforcement layer, where the carcass disposed between the cover layer and the pulley engaging layer. The cover layer is formed by curing an admixture containing at least a cross-linkable functionalized polyethylene and polyethylene polyolefin. According to the disclosure, the cured admixture is effectively maintained within the cover layer during use of the conveyor belt. In some cases, the load carrying surface maintains a wet clay cleanability value of greater than 3, or even a wet clay cleanability value of greater than 4.4. The cross-linkable functionalized polyethylene may be a cross-linkable oxidized polyethylene. In some aspects, the cross-linkable functionalized polyethylene does not form a polyethylene film upon the load carrying surface. |
113 |
Industrial fabric for production of nonwovens, and method of making thereof |
US12695007 |
2010-01-27 |
US09903070B2 |
2018-02-27 |
Sabri Mourad; Jonas Karlsson |
An industrial fabric such as an endless belt or sleeve for use in the production of nonwovens, and a method of making thereof are disclosed. The fabric includes a plurality of through voids, where each of the voids has a first opening associated with a top surface of the fabric and a first raised edge circumferentially adjacent to the first opening. The voids may each further include a second opening associated with a bottom surface of the fabric and a second raised edge circumferentially adjacent to the second opening, such that the first opening may have a surface area that is larger than or the same as the second opening. |
114 |
Cooking belt |
US14543555 |
2014-11-17 |
US09872585B2 |
2018-01-23 |
Hua Fan; Anne B. Hardy; Timothy P. Pollock; Ephraim P. Lin |
A grilling belt includes a flexible support having first and second major surfaces, an extruded fluoropolymer layer overlying the first major surface, and a cast or skived fluoropolymer layer overlying the extruded fluoropolymer layer. Another grilling belt can include a support having first and second major surfaces, and a first fluoropolymer film overlying the first major surface. The support can include a first fabric having a first bias angle, and a second fabric laminated to the first fabric and having a second bias angle different from the first bias angle by between 20° and 160°. |
115 |
Fabric And Method For Producing A Fabric |
US15519567 |
2015-10-12 |
US20170239912A1 |
2017-08-24 |
ROBERT EBERHARDT |
A functional belt has a foam layer and at least one further functional layer. The foam layer and the further functional layer are joined to one another by laser transmission welding, in particular by NIR laser transmission welding. A method for producing a functional belt includes the following method steps: providing a compressible foam layer; providing a further functional layer bringing together the foam layer and the further functional layer and joining the compressible foam layer to the further functional layer by laser transmission welding, in particular by means of NIR laser transmission welding. A technical textile, in particular a fabric for use in a machine for the production or processing of a fibrous material web, preferably press felt of a paper machine, a sealing band or a textile-reinforced insulation material, includes, or is made of, such a functional belt. |
116 |
BELT OR FABRIC INCLUDING POLYMERIC LAYER FOR PAPERMAKING MACHINE |
US15431497 |
2017-02-13 |
US20170233946A1 |
2017-08-17 |
James E. SEALEY; Bryd Tyler MILLER, IV; Phillip MACDONALD; Taras Z. ANDRUKH; Justin C. PENCE |
A fabric or belt for a papermaking machine including a first layer that defines a web contacting surface and a second layer that supports the first layer. The first layer is made of extruded polymer and includes a plurality of first elements aligned in a first direction, a plurality of second elements aligned in a second direction and extending over the plurality of first elements, and a plurality of open portions defined by the plurality of first and second elements. The second layer is made of woven fabric. The first layer is bonded to the second layer so that the first layer extends only partially through the second layer and an interface formed between the first and second layers includes bonded and unbonded portions and airflow channels that extend in a plane parallel to the first and second layers. |
117 |
FLUORORESIN TUBE |
US15501325 |
2015-07-31 |
US20170225436A1 |
2017-08-10 |
Koji Takahashi; Yuushi Okeda |
Provided is a fluororesin tube having excellent properties such as heat resistance, weather resistance, chemical resistance, peeling properties, and low dielectric properties that are specific to a fluororesin and also having an inner surface that has high adhesiveness with respect to different materials, particularly, silicone rubber.A fluororesin tube is provided, in which an inner surface of the tube is subjected to plasma treatment by introducing vinylalkoxysilane into a plasma excitation gas, and an arithmetic average roughness Ra and an average length RSm of a roughness curve element with respect to the inner surface of the tube which is subjected to the plasma treatment satisfy Ra<0.08 μm and RSm<25 μm. |
118 |
Method for producing laminate |
US14769793 |
2014-01-30 |
US09486959B2 |
2016-11-08 |
Koji Urabe |
In the present technology, when rolling rubber material extruded from a first rubber extruder (32) with a first pair of rollers (36, 36) to form a first sheet-shaped member (S1) and layering and rolling the first sheet-shaped member (S1) and the second sheet-shaped member (S2) supplied from an original material with a second pair of rollers (38, 38) to contiguously produce a laminate having the first sheet-shaped member (S1) and a second sheet-shaped member (S2) laminated therein, the gap between the first pair of rollers (36, 36) is controlled on the basis of the detection result of the thickness (d1) of the first sheet-shaped member (S1) rolled by the first pair of rollers (36, 36), the detection result of the thickness (d2) of the second sheet-shaped member (S2) supplied from the original material, and the detection result of the thickness (d3) of the laminate body. |
119 |
Conveyor belt with high flexibility and at the same time high flame resistance |
US15026837 |
2014-08-04 |
US20160289003A1 |
2016-10-06 |
Georg Müller; Daniel Vazquez-Maggio |
A conveyor belt, in particular a pouch conveyor belt, with a first layer, which comprises a material with high flexibility, and to a conveying installation, in particular a pouch conveying installation, with such a conveyor belt. |
120 |
TAPE WITH SMOOTH DEPLOYMENT |
US14980014 |
2015-12-28 |
US20160185073A1 |
2016-06-30 |
François GUINOT; Stéphane VEZAIN; Didier STANEK; Yannick BAUDASSE; Stéphane BOURGEOIS; Pernelle MARONE-HITZ |
A tape having a fully wound stable state and a fully unwound stable state, configured for space applications, the intermediate states between the fully wound state and the fully unwound state comprises a single continuous portion of wound tape with a first radius of curvature greater than a threshold value and a single continuous portion of unwound tape with a second radius of curvature less than the threshold value, the value of the second radius of curvature being continuous over the unwound portio; the tape comprises a stack comprising fibrous layers extending in a longitudinal direction, the resulting stack having symmetry with respect to a longitudinal plane of its fibres to compensate for torsional deformations generated by variations in temperature. |