Class / Patent application number | Description | Number of patent applications / Date published |
083022000 | By fluid application | 32 |
20080210066 | Method for chopping unwound items and coated chopper blades - A method for separating long, unwound items like fiber, fiber strands, yarn, etc. having a liquid chemical sizing on the surfaces into short lengths by chopping is disclosed. | 09-04-2008 |
20080282855 | WATER JET CUTTING METHOD - A package base is held on a holding table, and an XYZ moving mechanism is next moved to adjust a jet position to a cutting start point of a primary subject line to be first cut. Thereafter, a cutting water supplying unit is operated to direct a water jet onto the package base at this cutting start point. Thereafter, the XYZ moving mechanism is operated to move the package base, thereby cutting the package base along the primary subject line until a cutting stop point. Similarly, this cutting operation is repeated for the other primary subject line to thereby obtain a plurality of primary cut areas having the same shape and size in the condition that each primary cut area is integrally supported at its opposite ends to the package base, thus finishing a primary cutting step. Thereafter, a dicing tape is attached to one side surface of the package base. Thereafter, the package base is cut along a plurality of secondary subject lines as in the primary cutting step, thus finishing a secondary cutting step. | 11-20-2008 |
20090288530 | Slicing method and method for manufacturing epitaxial wafer - There is provided a slicing method including winding a wire around a plurality of grooved rollers and pressing the wire against an ingot to be sliced into wafers while supplying a slurry for slicing to the grooved rollers and causing the wire to travel, in which a test of slicing the ingot while supplying the slurry for slicing to the grooved rollers and controlling a supply temperature thereof is previously conducted to examine a relationship between an axial displacement of the grooved rollers and a supply temperature of the slurry for slicing, a supply temperature profile of the slurry for slicing is set based on the relationship between an axial displacement of the grooved rollers and a supply temperature of the slurry for slicing, and the slurry for slicing is supplied based on the supply temperature profile to slice the ingot while controlling an axial displacement of the grooved rollers and to uniform Sori of all wafers to be sliced out in one direction. As a result, the slicing method that can easily perform slicing with excellent reproducibility while uniforming Sori of all wafers in one direction at the time of slicing an ingot by using a wire saw is provided. | 11-26-2009 |
20100000383 | Microscope coupled tissue sectioning system - The present invention relates to a microscope coupled tissue sectioning system. The tissue sectioning system includes a frame for coupling with a microscope. A sample cutting apparatus is attached with the frame. The sample cutting apparatus includes a sample cutter (e.g., blade) and is operable for causing the sample cutter to engage with the sample and remove a portion of the sample. Additionally, a sample moving apparatus attached with the frame. The sample moving apparatus is operable for causing the sample to align with an imaging path of a microscope for imaging by the microscope. | 01-07-2010 |
20100011923 | METHOD OF MINIMAL QUANTITY LUBRICATION CUTTING/GRINDING PROCESSING AND OIL COMPOSITION USED THEREFOR - The present invention provides a method of minimal quantity lubrication cutting and grinding that can improve cutting and grinding properties and extend the life of tools. The minimal quantity lubrication cutting and grinding method of the present invention comprises supplying a compressed fluid containing 0.1 to 15 percent by volume of oxygen together with a cutting and grinding oil (particularly preferably an oil composition comprising an ester) to processing spots of a workpiece. | 01-21-2010 |
20100043610 | Ultrasonic trimming apparatus and ultrasonic trimming method - An ultrasonic trimming apparatus is composed of an articulated robot, a cutting apparatus, and a grindstone. The cutting apparatus is composed of an ultrasonic oscillator which is supported by the end portion of the articulated robot, a cutter blade which is supported by the ultrasonic oscillator, and a workpiece securing portion which secures a workpiece. The grindstone serving as a grinding member is disposed within the movable range of the cutter blade driven by the robot and is placed in a position at which the cutter blade can pressure contact the cutter blade. The cutter blade is ultrasonically vibrated by the ultrasonic oscillator and is ground while being pressed against the grindstone by means of the articulated robot. The ultrasonic trimming apparatus efficiently cuts a sheet material composed of soft material such as plastic, fabric, or rubber, a composite material, or a material containing glass fiber by means of an environmentally conscious method even when the material has a three-dimensional shape. | 02-25-2010 |
20100058906 | METHOD FOR CUTTING FERROUS MATERIAL AND CUTTING FLUID SUPPLY DEVICE - In a method for cutting ferrous material in accordance with the present invention, a water-soluble cutting fluid containing nanometer-size carbon particles is electrolyzed, and a ferrous workpiece is cut by a diamond cutting tool | 03-11-2010 |
20110239835 | STEEL FOR MACHINE STRUCTURE USE EXCELLENT IN CUTTING TOOL LIFETIME AND MACHINING METHOD OF SAME - Steel for machine structure use excellent in tool lifetime in a broad range of cutting speeds regardless of continuous machining, intermittent machining, or other systems and further in various machining environments such as use of a cutting fluid or a dry, semidry, and oxygen enriched environment, having a chemical composition containing, by mass %, C: 0.01 to 1.2%, Si: 0.005 to 3.0%, Mn: 0.05 to 3.0%, P: 0.0001 to 0.2%, S: 0.0001 to 0.35%, N: 0.0005 to 0.035%, and Al: 0.05 to 1.0%, satisfying [Al %]−(27/14)×[N %]≧0.05%, and having a balance of Fe and unavoidable impurities and forming an Al | 10-06-2011 |
20110239836 | COMPOSITION FOR IMPROVING DRYNESS DURING WIRE SAWING - The invention provides a composition for slicing a substrate using a wire saw wherein the composition comprises a liquid carrier and an abrasive. The invention further provides methods of slicing a substrate using a wire saw and a composition. | 10-06-2011 |
20110271807 | METHODS AND AN APPARATUS FOR REMOVING A COATING - In a method of removing a protecting synthetic coating ( | 11-10-2011 |
20110308363 | PROCESS FOR PERFORATING A WEB - Methods for perforating web products are disclosed that include forming selected perforation designs and patterns. The perforation designs and patterns can be formed in linear or nonlinear fashion, can extend in the cross direction or the machine direction and can be formed to complement or match an embossed or printed design on the web. The perforation designs and patterns can be formed utilizing various mechanical perforating techniques. | 12-22-2011 |
20110308364 | METHOD AND DEVICE FOR STRIPPING FIBRES IN A FIBRE BUNDLE - The invention relates to a method and a device for removing the sheath or for stripping fibres of a fibre bundle. Each fibre comprises a core and a sheath, wherein the fibres are arranged adjacent to each other on a base such as to run in a first direction, a cut is made with two blades running perpendicular to the first direction in a plane from opposing sides such that the blades from a notch in each sheath running in the circumferential direction, the fibre bundle is then dipped in a chemical solvent up to the cuts in the fibres for a given period in order to pre-weaken the connection between the sheath and the core and d) the pre-weakened sheath sections are mechanically drawn from the fibre cores. | 12-22-2011 |
20120085209 | CUTTING METHOD OF STEEL FOR MACHINE STRUCTURAL USE - The cutting method of steel for machine structural use includes: forming a mist by mixing a cutting fluid supplied at a supply rate of 0.01 ml/hour to 200 ml/hour and an oxidizing gas containing, by volume %, 21% to 50% of oxygen; and cutting the steel for machine structural use while the mist is blown on the cutting edge surface of a tool and the surface of the steel for machine structural use, wherein the steel for machine structural use includes, by mass %: C: 0.01% to 1.2%, Si: 0.005% to 3.0%, Mn: 0.05% to 3.0%, P: 0.001% to 0.2%, S: 0.001% to 0.35%, N: 0.002% to 0.035%, Al: 0.05% to 1.0%, and the balance consisting of Fe and inevitable impurities in which O is limited to 0.003% or less, and the amount of Al [Al %] and the amount of N [N %] satisfy [Al %]−(27/14)×[N %]≧0.05. | 04-12-2012 |
20120103151 | Composition Dispensing Device Comprising A Non-Foaming Hydrating Composition - A composition dispensing device containing a composition comprising an anti-irritation agent such as zinc pyrithione. which is preferably thick and viscous yet remains clear or translucent. | 05-03-2012 |
20120272800 | METHOD FOR PREPARING A GLASS CONVENIENT FOR TRIMMING, A GLASS THUS OBTAINED, AND METHOD FOR TRIMMING SUCH A GLASS - The aim of the invention is to provide a method for making appropriate for trimming a glass comprising a hydrophobic and/or oil-repellent surface coating. | 11-01-2012 |
20130000453 | ELASTOMERIC GASKET SQUEEZE OUT REMOVAL METHOD AND KIT - A method is disclosed for trimming elastomeric gasket squeeze-out from between a removeable workpiece and a static base, when there is compression between the workpiece and the base. The elastomeric gasket is deformable and compression causes squeeze-out along the edge, The method comprises using a tack release agent to remove the tackiness from the elastomeric squeeze-out and, following wetting of the squeeze-out, applying a thin blade adjacent the workpiece and trimming the excess squeeze-out by moving the blade along the workpiece. | 01-03-2013 |
20130205959 | Composition Dispensing Device Comprising A Moisturizing Composition - A composition dispensing device containing a moisturizing personal care composition suitable for use on wet skin. | 08-15-2013 |
20130213199 | METHOD OF CUTTING STEEL FOR MACHINE STRUCTURAL USE - In the method of cutting steel for machine structural use, steel for machine structural use, in which chemical components contain, by mass %, 0.01% to 1.2% of C, 0.005% to 3.0% of Si, 0.05% to 3.0% of Mn, 0.001% to 0.2% of P, 0.001% to 0.35% of S, 0.002% to 0.035% of N and 0.05% to 1.0% of Al, in a case in which [Al%] and [N%] represent the mass % of Al and N in the steel respectively, [Al%]−(27/14)×[N%]≧0.05% is satisfied, is the other elements are included as necessary, and a balance consisting of Fe and inevitable impurities, is used, and a cutting process is carried out on the steel for machine structural use using water-insoluble cutting oil in which the amount of dissolved oxygen is 4 volume % to 16 volume %. | 08-22-2013 |
20130220089 | CUTTING TOOL WITH INTERNAL FLUID DELIVERY SYSTEM - A cutting tool has an internal cutting tool fluid delivery system. The cutting tool has a tool body and a fluid delivery head coupled thereto by a solid coupling member with a continuous male thread. The tool body includes a body coupling bore and the head includes a head coupling bore which communicates with the body coupling bore. At least one of the body and head coupling bores includes a circumferentially interrupted female thread which has a longitudinal thread axis and a radial outer thread boundary. The or each coupling bore having the female thread includes a thread passage which extends along the thread axis. In an axial cross section of the female thread, the thread passage extends both inside and outside the radial outer thread boundary. | 08-29-2013 |
20140144302 | Polarizing Sheet Removing Tool and Removing Method - The present invention provides a polarizing sheet removing tool and removing method. The tool includes a handle and a blade mounted on the handle. The handle includes a main body, a piston device mounted on the main body, and a guide tube mounted on the main body. The main body forms therein a channel for containing an adhesive dissolving liquid. The piston device is mounted inside the channel. The guide tube has an end in communication with the channel and an opposite end positioned on the blade to guide the adhesive dissolving liquid contained in the channel to the blade. The present invention uses a tool on which a piston device and adhesive dissolving liquid are provided so that in removing a polarizing sheet, the adhesive dissolving liquid can be guided by a guide tube toward a blade for subsequently flowing toward and dissolving bonding adhesive. | 05-29-2014 |
20140326117 | WATER-SOLUBLE METALWORKING OIL AGENT, METALWORKING FLUID, AND METALWORKING METHOD - The invention provides a water-soluble metal-working oil agent, including a component A, a component B, a component C, and a component D, wherein the component A is an ester compound which has a characteristic temperature, as measured in accordance with JIS K2242, of 570° C. or higher and which is contained in the water-soluble metal-working oil agent in an amount of 10 mass % or more with respect to the entire amount of the agent; the component B is at least one condensed fatty acid which is selected from a condensed fatty acid (1), produced through dehydration condensation of a hydroxycarboxylic acid, and a condensed fatty acid (2), produced through dehydration condensation of an alcoholic hydroxyl group of the condensed fatty acid (1) with a monovalent carboxylic acid, which has a characteristic temperature, as measured in accordance with JIS K2242, of 650° C. or higher, and which is contained in the water-soluble metal-working oil agent in an amount of 7.5 mass % or more with respect to the entire amount of the agent; the component C is a carboxylic acid which is contained in the water-soluble metal-working oil agent in an amount of 2 mass % or more with respect to the entire amount of the agent; and the component D is a basic compound contained in such a neutralization equivalent that at least the component B and component C are neutralized to cancel out the sum of the acid values thereof. The agent can provide excellent workability with a hard-to-work material and can prolong tool life. | 11-06-2014 |
20140366693 | GLASS TUBE CLEANING AND CUTTING DEVICE AND METHOD FOR SAME - A glass tube cleaning and cutting device and a method for same configured to cut a continuous glass tube at a predetermined length by intermittently contacting a cutting blade with the outer circumference surface of the continuously travelling continuous glass tube formed by tube pulling while blowing air to impose scratches and thermal shock on the outer circumference surface of the continuous glass tube so as to obtain a plurality of cut-off glass tubes, the glass tube cleaning and cutting device includes: a blower provided on a more downstream side of the travelling continuous glass tube than the cutting blade, the blower being configured to blow opposing air opposed to air into a tip end opening of the continuous glass tube. | 12-18-2014 |
20150047481 | RAZORS AND KITS FOR APPLYING SHAVING AIDS - A safety razor is provided having a handle, a cartridge mounted to the handle and a pair of primary guards joined to the cartridge, each of the primary guards having a plurality of fins that define a plurality of fin slots. The safety razor also includes one or more primary shaving blades mounted to the cartridge and positioned adjacent the pair of primary guards. A shaving aid retention guard is positioned between the pair of primary guards. The shaving aid retention guard has a plurality of walls defining a plurality of guard slots, wherein a width of the guard slots is greater than the width of the fin slots. | 02-19-2015 |
20150090087 | AQUEOUS WIRE SLICING FLUIDS AND RELATED METHODS OF SLICING - An aqueous coolant fluid for cutting or machining a semiconductor substrate, comprising at least one organic phosphorous containing acid or salt thereof, at least one polyol; and at least one surfactant, and a method of cutting a silicon ingot or wafer using the coolant fluid. | 04-02-2015 |
20150306780 | APPARATUS AND METHOD FOR CUTTING PIPES OF THERMOPLASTIC MATERIAL - An apparatus ( | 10-29-2015 |
20150306781 | WATERJET SAFETY ENCLOSURE SYSTEM - A waterjet safety enclosure formed by walls using a detection device or light curtain to detect unsafe conditions. The waterjet safety enclosure walls can be used in new work areas or retrofitted and shaped to fit existing work areas. The waterjet safety enclosure walls may form a partial or complete perimeter about a work area and may be adjustable or mobile. The waterjet safety enclosure wall detects unsafe conditions when a high pressure stream of water from a waterjet cutting machine approaches, contacts or penetrates the waterjet safety enclosure wall. The detection device detects the high pressure stream of water and sends a signal to a controller to stop the operation of the waterjet cutting machine. | 10-29-2015 |
20150332886 | Method for Cold-Cutting a Lamp - A method is described for cold-cutting a lamp having an inner pressure that is lower than the atmospheric pressure and containing a pollutant. The method includes keeping the lamp in position; cutting the lamp at at least one cutting point; prior to cutting, submerging the cutting point in a liquid or pasty composition; keeping the cutting point submerged during the cutting; and suctioning part of the composition into each cut-off portion. The composition is a dilatant and has a temperature no lower than the pour point thereof, prior to the cutting step. After the cutting, the temperature of the dilatant composition is reduced to a temperature lower than the pour point thereof, such as to increase the viscosity thereof and create a sealed stopper. | 11-19-2015 |
20150375408 | DISPOSABLE FLUID DISPENSING HAIR REMOVAL DEVICE - The present invention relates to a hair removal and fluid application device ( | 12-31-2015 |
20150375409 | DISPOSABLE FLUID DISPENSING HAIR REMOVAL DEVICE - The present invention relates to a hair removal and fluid application device ( | 12-31-2015 |
20160008897 | Saw Blade Lubrication and Temperature Control System | 01-14-2016 |
20160081909 | Shaving Preparation and Method for Shaving - Disclosed is a shaving preparation imparting durable lubricity. The shaving preparation has one or more silicone polyethers and one or more water-soluble polymers that associate with the one or more silicone polyethers in aqueous solution. The lubricity of the shaving preparation can be reactivated by wetting the skin after shaving without applying an additional amount of the shaving preparation. Also disclosed is a method for using the shaving preparation. | 03-24-2016 |
20160101476 | CUTTING APPARATUS AND CUTTING METHOD - A cutting device for cutting a flat workpiece includes a nibbler that continuously punches the workpiece, and a fluid spraying device that sprays a fluid onto the surface of the workpiece. The nibbler includes a cylindrical case, a punch that has a punch blade for punching the workpiece and that is accommodated in the case to have reciprocating motion in the vertical direction, and a die provided below the case. The cutting device is configured to move the workpiece interposed between the case and die in a prescribed direction while continuously punching the workpiece with the punch. The fluid spraying device has a spray port from which the fluid is discharged and is configured so the fluid is discharged from the spray port in the direction in which the punch approaches the die. The spray port of the fluid spraying device is disposed near the punch blade of the punch. | 04-14-2016 |