121 |
Coating bearing manufacturing method and manufacturing equipment |
JP2007078948 |
2007-03-26 |
JP4272238B2 |
2009-06-03 |
拓也 田中; 正仁 藤田 |
|
122 |
Coating system for protective layer forming material, material to be coated, peelable protective layer, and surface protection method for material to be coated |
JP2003404458 |
2003-12-03 |
JP2004216365A |
2004-08-05 |
NAGASE TOMONARI; OKUBO HIROMI; TERABE MASATO |
PROBLEM TO BE SOLVED: To improve production efficiency by automating a process for coating a protective layer forming material, simplify the operation and uniform the coating quality.
SOLUTION: Robots 16a, 16b and 16c, controlled by a control part 18 and capable of performing a teaching action, are provided in the vicinity of a conveyance line 12. At each of the tips of the respective robot 16a, 16b and 16c, a roller mechanism part 34 equipped with a roller 48 having the quality of its material to absorb and store the protective layer forming material is provided. The protective later forming material uses an acrylic copolymer agent acting as an exfoliative protective layer after dried as the material. The control part 18 records the teaching data teaching the robots 16a, 16b and 16c to force the roller 48 to contact to the vehicle 14 to be rotated and moved. When the vehicle 14, on which coating is completed, is carried in, the control part 18 forces the robots 16a, 16b and 16c to act based on the teaching data, and coat the vehicle 14 with the protective layer forming material while supplying the protective layer forming material to the roller 48.
COPYRIGHT: (C)2004,JPO&NCIPI |
123 |
Application of adhesive layer to substrate surface and apparatus therefor |
JP11253493 |
1993-05-14 |
JPH0631222A |
1994-02-08 |
RAMU ESU NAARAN; SUTEIIBUN EFU PONDO; ROBAATO PII ARUTABUERA; FUREDERITSUKU EI UOONAA; ROBAATO EI HARORUDO |
PURPOSE: To make it possible to prevent a portion where an adhesive layer is nonuniform and to migrate the adhesive layer at a high speed by a transporting means which applies a prescribed pressure between a flexible sheet and flat substrates to transfer the adhesive layer having a uniform thickness to the flat substrates by one piece each at a time. CONSTITUTION: The one surface of a disk 14 as the flexible sheet of a polymer film forming material is placed on a porous layer 46 of a sleeve 22 and is securely held in a prescribed place by the vacuum in the sleeve cavity acting via the pores 44 of the sleeve. The disk 14 has the adhesive layer of the prescribed uniform thickness on the other surface. A transporting means 28 has a heating element for heating the flat substrate to a prescribed temperature. As the disk 14 is rotated by the sleeve 22, the substrate is moved at the timing matched with the disk 14, by which the prescribed pressure is applied between the substrate and the disk 14. The adhesive layer having the extremely uniform thickness is thus migrated by one piece each to the plural substrates at a time. |
124 |
Method for applying adhesives in contact type disc |
JP1938188 |
1988-01-29 |
JPH01194960A |
1989-08-04 |
SUZUKI AKIRA |
PURPOSE:To prevent the formation of stringiness of adhesives on the outer periphery of a disc, by applying adhesives to the disc in a transferring manner, while making the portion of a coating body to hold adhesives equal to the outer diameter of the disc or smaller than it. CONSTITUTION:Adhesives 4 is attached to a coating body 1 to be held thereon and the adhesives 4 are applied to a disc D by means of the coating body 1 so that two pieces of discs D are bonded, wherein the portion 7 of the coating body 1, on which the adhesives 4 are held, are made equal to the outer diameter (a) of the disc D or smaller than said diameter, whereby the adhesives 4 are applied to the disc D in a transferring manner. Consequently, the adhesives do not overflow the outer periphery of the disc, whereby stringiness of adhesives is not formed on the outer periphery of the disc, preventing thereby the stringiness from attaching to the recording surface of the disc. |
125 |
JPS5933429B2 - |
JP15887581 |
1981-10-07 |
JPS5933429B2 |
1984-08-15 |
PAURU OPUREHITO |
|
126 |
JPS5750543B2 - |
JP6871677 |
1977-06-09 |
JPS5750543B2 |
1982-10-27 |
|
PURPOSE:To enlarge the working range, by tying a coater base to a telescopic mast with ropes via pulleys, and by lowering the coater base to the lowest position. |
127 |
Coater lifting device in ship coating carriage |
JP6871677 |
1977-06-09 |
JPS543141A |
1979-01-11 |
OOSHITA KATSUMASA; OKADA MORIMASA; ISHIZAWA MASAYOSHI |
PURPOSE: To enlarge the working range, by tying a coater base to a telescopic mast with ropes via pulleys, and by lowering the coater base to the lowest position.
COPYRIGHT: (C)1979,JPO&Japio |
128 |
LUBRICANT COATING DEVICE AND IMAGE FORMING APPARATUS |
US15952121 |
2018-04-12 |
US20180328535A1 |
2018-11-15 |
Yukimasa AZUMA |
A lubricant coating device preventing coating unevenness of lubricant powders is provided. The lubricant coating device includes a solid lubricant, a coating member and a film shaping member. The coating member in which first fibers composed of a material located on a positive polarity side and second fibers composed of a material located on a negative polarity side, on a triboelectric series with respect to the material of the solid lubricant are implanted, coats lubricant powders scraped off from the solid lubricant onto the image supporter. The film shaping member comes in contact with the image supporter and presses the lubricant powders onto the image supporter, to shape the lubricant powders into a form of a film. A scraping amount of the lubricant powders by the first fibers and a scraping amount of the lubricant powders by the second fibers are set to become substantially identical. |
129 |
VACUUM ENABLED ARTICLE TRANSFER |
US15835335 |
2017-12-07 |
US20180100087A1 |
2018-04-12 |
Chia-Hung Hsieh; Chun-Ta Huang; Chiung-Lung Lin |
Moving an article after a material, such as a hot-melt adhesive, has been applied to a surface of the article is accomplished with an article transfer apparatus. The apparatus is comprised of a belt having a plurality of apertures extending there through that are effective to communicate a vacuum pressure from an inner surface of the belt to a contacting surface of the belt. The vacuum pressure secures and adheres the article to the contacting surface of the belt as the belt conveys the article. The vacuum pressure is distributed along the inner surface of the belt by a vacuum chamber, which is between a compression roller and a second roller. |
130 |
SURFACE APPEARANCE SIMULATION SYSTEMS AND METHODS |
US15431317 |
2017-02-13 |
US20170151828A1 |
2017-06-01 |
Roger A. Fahlsing; Alan Kaufman |
A structural member includes a simulated surface appearance. The structural member includes a substrate, plural intermediate layers, and a top coat. The plural intermediate layers are applied over at least one surface of the substrate, with at least some of the plural intermediate layers configured to cooperate with each other to provide a simulated appearance for the structural member. The top coat is applied outward of the plural intermediate layers. The top coat is relatively thin and is configured for use with exterior applications. The top coat includes a base configured for UV resistance and an additive configured to provide abrasion resistance. |
131 |
TOOL AND METHOD FOR APPLYING AN ANTI-CORROSION SUBSTANCE TO AN AIRCRAFT PASSENGER SEAT RAIL |
US15282055 |
2016-09-30 |
US20170100739A1 |
2017-04-13 |
Christophe MENARD; Nicolas BLOND |
The disclosure herein relates to a tool for applying a corrosion-protection substance to a rail for securing seats in an aircraft. The tool comprises a component of elongate overall shape comprising a base configured to slide along the rail, and a rollers support connected to the base and comprising an axle forming a rollers support, The axle extends transversally with respect to the longitudinal direction of the component, on each side thereof, and a plurality of rollers for applying the substance being mounted on the transverse axle, one on each side of the component. The tool allows the substance to be applied effectively to the flange parts of the rail that is to be protected. |
132 |
AUTOMOTIVE PROTECTANT COMPOSITIONS WITH IMPROVED VERTICAL CLING |
US15371359 |
2016-12-07 |
US20170081551A1 |
2017-03-23 |
Ashot K. SEROBIAN |
Compositions, methods of use and kits for use as a protectant composition and/or cleaning composition. The protectant composition and/or cleaning composition comprises at least one surfactant and at least one rheology modifier, and water. The composition also optionally comprise, pH adjusters, builders, alkalinity sources, wetting agents, spreading agents, UV absorbers. The protectant composition has a viscosity of about 4000 to 6000 cps and exhibits a Vertical Cling parameter of between 1 and about 7 at a temperature of about 25° C. on automotive surfaces to which the compositions are applied. |
133 |
Applicator with hydrophobic coating transferable to contacting surface |
US13662970 |
2012-10-29 |
US09540552B2 |
2017-01-10 |
Jiafu Fang |
A coating composition for imparting a hydrophobic film on a target surface is provided that, includes an oil of a silicone oil or a fluoropolymer oil or a combination thereof, a resin, and a dry lubricant. A solvent is present to form a solution of the oil and resin. A coating is imparted to an applicator that in turn can transfer the coating as a hydrophobic film. The coating composition is stable and able to impart hydrophobic film even after storage for several weeks at elevated temperature. The coating composition does so through the exclusion of synthetic waxes especially including silicone waxes. A kit is also provided that includes a wiper blade having the above coating composition applied along with instructions for the securement of the wiper blade to a vehicle to impart the hydrophobic film to a vehicle windshield contacted by the wiper blade. |
134 |
Adhesive coating device with discharge adjustment mechanism |
US14533137 |
2014-11-05 |
US09393585B2 |
2016-07-19 |
Yu-Cheng Huang |
An adhesive coating device is provided with an adhesive reservoir; two opposite adjustment rollers at bottom of the reservoir; a pattern roller between the adjustment rollers and having a pattern formed thereon; a resilient roller under the pattern roller; a roller member under the resilient roller; two pivotal, co-rotated links on a side of the reservoir and operatively connected to the adjustment rollers respectively; and a spring biased adjustment screw pivotably secured to an end of one link. Clockwise rotation of the adjustment screw rotates the links at different directions, thereby decreasing a gap between the pattern roller and each adjustment roller. |
135 |
Vacuum Enabled Article Transfer |
US14463115 |
2014-08-19 |
US20160031651A1 |
2016-02-04 |
Chia-Hung Hsieh; Chun-Ta Huang; Chiung-Lung Lin |
Moving an article after a material, such as a hot-melt adhesive, has been applied to a surface of the article is accomplished with an article transfer apparatus. The apparatus is comprised of a belt having a plurality of apertures extending there through that are effective to communicate a vacuum pressure from an inner surface of the belt to a contacting surface of the belt. The vacuum pressure secures and adheres the article to the contacting surface of the belt as the belt conveys the article. The vacuum pressure is distributed along the inner surface of the belt by a vacuum chamber, which is between a compression roller and a second roller. |
136 |
MARKING SYSTEM FOR SPRINGS |
US14627295 |
2015-02-20 |
US20150238996A1 |
2015-08-27 |
Dong Hyun Hwang; Jae Yeol Han |
A marking system for springs comprises: an arranging apparatus for arranging a spring; and a marking apparatus for applying an identification mark on the spring. The marking apparatus comprises: a frame having a space for marking therein; a pad unit for applying a mark on the spring located in the frame; and an ink unit for supplying ink to the pad unit. |
137 |
Image forming apparatus and liquid application device |
US13315537 |
2011-12-09 |
US08910587B2 |
2014-12-16 |
Shozo Sakura; Satoshi Kitaoka; Shinji Imoto; Hiroyoshi Komaba |
An image forming apparatus includes an application device. The application device has an application roller to apply a treatment liquid onto a recording medium before an image is formed on the recording medium. The application roller has a core member serving as a rotation shaft of the application roller and an elastic surface member disposed around the core member. The core member has a plurality of convex ring portions formed along a circumferential direction of the core member around a circumferential surface of the core member and a plurality of concave ring portions formed between the plurality of convex ring portions. The convex ring portions and the concave ring portions are alternately arranged. |
138 |
SURFACE APPEARANCE SIMULATION SYSTEMS AND METHODS |
US13828122 |
2013-03-14 |
US20140272296A1 |
2014-09-18 |
Roger A. Fahlsing; Alan Robert Kauman |
A structural member includes a simulated surface appearance. The structural member includes a substrate, plural intermediate layers, and a top coat. The plural intermediate layers are applied over at least one surface of the substrate, with at least some of the plural intermediate layers configured to cooperate with each other to provide a simulated appearance for the structural member. The top coat is applied outward of the plural intermediate layers. The top coat is relatively thin and is configured for use with exterior applications. The top coat includes a base configured for UV resistance and an additive configured to provide abrasion resistance. |
139 |
MICROENCAPSULATED CATNIP OIL AND METHODS OF USING THE SAME |
US13781109 |
2013-02-28 |
US20130260040A1 |
2013-10-03 |
Neil Werde; Mark Hartelius |
Microencapsulated catnip oil comprising microcapsules in the range of 5-60 micrometers, apparatuses useful in the application of the microencapsulated catnip, and methods of using the same, are disclosed. |
140 |
Method and system for selective coating of endoluminal prostheses |
US12145141 |
2008-06-24 |
US08282981B2 |
2012-10-09 |
Anthony S. Andreacchi |
A system and method for coating an endoprosthesis involves an applicator capable of delivering a coating substance to the endoprosthesis without spraying. The applicator may have a tube or die through which a coating substance is moved upwards by capillary action or by means of a pump so as to form an accumulation of the coating substance at an upper portion of the applicator. The endoprosthesis can be lowered onto the accumulation, then axially translated or rotated in order to transfer the coating substance to selected portions of the endoprosthesis. The applicator is lowered and/or the endoprosthesis is raised in order to form gaps in the coating. Selective coating of abluminal or luminal surface of the endoprosthesis may also be performed by allowing the surface to skip on a liquid surface of a pool of the coating substance. |