Patent application number | Description | Published |
20090108558 | VEHICLE STEERING HEAD - A system for limiting a range of motion of a handlebar including a support tube adapted to be fixed to a frame, a member adapted to connect a wheel fork to the handlebar, an upper bearing support mounted to an upper end of the support tube, a plastic lower bearing support mounted to a lower end of the support tube, the member being rotatably mounted to the support tube via the upper and lower bearing supports, and a movement limiting system limiting a range of rotational movement of the member and utilizing stop surfaces arranged on the lower bearing support. | 04-30-2009 |
20120223503 | VEHICLE STEERING HEAD - A tricycle steering head having a limited steering, including a hollow support tube and a member connecting a wheel fork to a handlebar. The member is rotatably mounted to the hollow support tube via upper and lower bearing supports. A projection is oriented vertically and extends into an arc-shaped recess. The limited steering utilizes contact with one stop surface to limit rotational movement of the member in one direction and contact with another stop surface to limit rotational movement of the member in another direction. | 09-06-2012 |
20130285345 | VEHICLE STEERING HEAD - A vehicle steering head for a tricycle having a frame, the vehicle steering head including a support tube fixed to the frame of the tricycle. An upper bearing support mounted to the support tube. A lower bearing support is non-rotatably mounted to the support tube. A connecting element is mounted to the support tube via the upper and lower bearing supports. A wheel fork is arranged at a lower end of the connecting element. A mudguard is arranged between the wheel fork and the lower bearing support. The steering also includes non-axially movable angularly spaced stop surfaces and movable stop surfaces that can rotate with the connecting element. | 10-31-2013 |
20140375016 | VEHICLE STEERING HEAD - A tricycle having limited steering includes a front wheel mounted to a lower end of a wheel fork. A support tube is connected to a frame. A seat is mounted to the frame. A rear axle is included. Rear wheels are mounted to the rear axle. An upper end of the wheel fork extends upwards and into the support tube. A mudguard has front and back portions configured to extend over portions of the front wheel and side portions configured to extend over portions of the lower end of the wheel fork. A projection has an upper end arranged above an annular surface of the mudguard. | 12-25-2014 |
Patent application number | Description | Published |
20090108558 | VEHICLE STEERING HEAD - A system for limiting a range of motion of a handlebar including a support tube adapted to be fixed to a frame, a member adapted to connect a wheel fork to the handlebar, an upper bearing support mounted to an upper end of the support tube, a plastic lower bearing support mounted to a lower end of the support tube, the member being rotatably mounted to the support tube via the upper and lower bearing supports, and a movement limiting system limiting a range of rotational movement of the member and utilizing stop surfaces arranged on the lower bearing support. | 04-30-2009 |
20120223503 | VEHICLE STEERING HEAD - A tricycle steering head having a limited steering, including a hollow support tube and a member connecting a wheel fork to a handlebar. The member is rotatably mounted to the hollow support tube via upper and lower bearing supports. A projection is oriented vertically and extends into an arc-shaped recess. The limited steering utilizes contact with one stop surface to limit rotational movement of the member in one direction and contact with another stop surface to limit rotational movement of the member in another direction. | 09-06-2012 |
20130285345 | VEHICLE STEERING HEAD - A vehicle steering head for a tricycle having a frame, the vehicle steering head including a support tube fixed to the frame of the tricycle. An upper bearing support mounted to the support tube. A lower bearing support is non-rotatably mounted to the support tube. A connecting element is mounted to the support tube via the upper and lower bearing supports. A wheel fork is arranged at a lower end of the connecting element. A mudguard is arranged between the wheel fork and the lower bearing support. The steering also includes non-axially movable angularly spaced stop surfaces and movable stop surfaces that can rotate with the connecting element. | 10-31-2013 |
20140375016 | VEHICLE STEERING HEAD - A tricycle having limited steering includes a front wheel mounted to a lower end of a wheel fork. A support tube is connected to a frame. A seat is mounted to the frame. A rear axle is included. Rear wheels are mounted to the rear axle. An upper end of the wheel fork extends upwards and into the support tube. A mudguard has front and back portions configured to extend over portions of the front wheel and side portions configured to extend over portions of the lower end of the wheel fork. A projection has an upper end arranged above an annular surface of the mudguard. | 12-25-2014 |
Patent application number | Description | Published |
20120007330 | TRICYCLE WITH VARIABLE POSITION FOOT BOARDS - A tricycle has a frame, a front wheel with drive pedals, a seat, and a footboard. The footboard of the novel tricycle can optionally be mounted on the frame in a first orientation and in at least one second orientation. | 01-12-2012 |
20130168943 | TRICYCLE WITH VARIABLE POSITION FOOTBOARDS - A tricycle has a frame, a front wheel with drive pedals, a seat, and a footboard. The footboard of the novel tricycle can optionally be mounted on the frame in a first orientation and at least a second orientation. | 07-04-2013 |
20130210560 | Holding Apparatus for a Net of a Table-Tennis Table - A holding device ( | 08-15-2013 |
20140061403 | Bicycle Mounting Arrangement - The invention relates to a bicycle mounting arrangement comprising:
| 03-06-2014 |
20140117642 | TRICYCLE WITH VARIABLE POSITION FOOTBOARDS - A tricycle has a frame, a front wheel with drive pedals, a seat, and a footboard. The footboard of the novel tricycle can optionally be mounted on the frame in a first orientation and at least a second orientation. | 05-01-2014 |
Patent application number | Description | Published |
20100112371 | HOT FORMED PART, AND METHOD OF MAKING A HOT FORMED PART - A hot formed part of high-strength steel includes a body having an opening and formed in one piece with at least one tab in the form of a tongue projecting into the opening for holding a connection piece captive on the body. The tab thus is formed in one piece with the hot formed part and is produced jointly with the openings during manufacture of the hot formed part in the hot forming process. | 05-06-2010 |
20100203272 | METHOD FOR PRODUCING A MOTOR VEHICLE COMPONENT, AND A MOTOR VEHICLE COMPONENT - A method for producing a motor vehicle component and a motor vehicle component produced by this method are disclosed. A tubular body made of metal, in particular high-strength steel, is filled with a granular material and subsequently heated. During the heat treatment, the granular material melts and then hardens during cool-down to form an interior reinforcement. | 08-12-2010 |
20110006559 | METHOD OF MAKING A BODY FOR A MOTOR VEHICLE, AND BODY OF A MOTOR VEHICLE - In a method of making a body for a motor vehicle, shaped components are produced from blanks using at least one forming process. The shaped components are provided with rivet holes, and a coating is applied onto the shaped components for corrosion protection. After applying the corrosion protection, the shaped components are joined with the body via rivets. | 01-13-2011 |
20110291431 | CRASH BOX, AND METHOD OF MAKING A CRASH BOX - A crash box for installation between a bumper crossbeam and a side rail of a motor vehicle is made from a longitudinal beam made of a steel alloy having the following composition in weight-%, 0.15 to 0.30% of carbon (C), 0.10 to 0.70% of silicon (Si), 1.00 to 2.50% of manganese (Mn), 0.10 to 0.50% of chromium (Cr), 0.02 to 0.05% of titanium (Ti), 0.001 to 0.005% of boron (B), 0.01 to 0.06% of aluminum (Al), up to 0.50% of molybdenum (Mo), max. 0.025% of phosphorus (P), max. 0.015% of sulfur (S), remainder iron (Fe) including impurities resulting from smelting. The longitudinal beam is hot-formed and press-hardened and then heat-treated at a temperature of 200° C. to 800° C., with a material of the longitudinal beam having a bend angle of greater than or equal to 60° after heat treatment and measured in accordance with DIN EN ISO 7438. | 12-01-2011 |
Patent application number | Description | Published |
20090019086 | Method for matching color and appearance of a coating containing effect pigments - The present invention is directed to a method for identifying one or more matching formulas for matching color and appearance of a target coating containing effect pigments. The present invention is also directed to a system for identifying one or more matching formulas for matching color and appearance of a target coating containing effect pigments. | 01-15-2009 |
20110143017 | METHOD FOR GENERATING AND APPLYING INSTRUMENT PROFILES - The invention relates to a method for generating calibrated colour data of a target using colour measurement instruments distributed in the network comprising the steps A) generating at least one standard instrument profile for the colour measurement instruments distributed in the network to correct photometric and wavelength scale differences, and B) generating at least one geometry instrument profile for the colour measurement instruments distributed in the network to correct geometry scale differences. The method can be used in applications where colour measurement instrument networks are used, particularly in robotic systems where colour measurement instruments are integrated. | 06-16-2011 |
20110160892 | METHOD FOR COLOR MATCHING - The invention relates to a method for matching the color of a dry color shade standard, said method comprising the steps of A) Measuring the dry color shade standard, B) Calculating a recipe for the dry color shade standard, C) Generating a virtual wet color shade standard based on the recipe for the dry color shade standard calculated in step B), wherein the virtual wet color shade standard is generated with wet characterisation data and D) Matching the virtual wet color shade standard. The method can be used for elaboration of color shades and batch adjustment in production of paints. | 06-30-2011 |
20120236309 | METHOD AND SYSTEM FOR MATCHING COLOR AND COARSENESS APPEARANCE OF COATINGS - The present invention is directed to a method and a system for producing one or more matching formulas to match color and coarseness appearance of a target coating on a substrate. The method provides providing a set of coating chips comprising at least two coating chips having different lightness values, and at least two coating chips having matching lightness values and different coarseness values. This invention provides a simple method and the system for matching color and coarseness appearance of the surface coating. | 09-20-2012 |
20130242306 | CHECK-TILE FOR COLOUR MEASUREMENT INSTRUMENTS - The invention relates to a check-tile for validating instrument scales of colour measurement instruments, in particular of goniospectrophotometers, said check-tile comprising a non-transparent (opaque) coloured substrate coated with a pigmented coating, wherein
| 09-19-2013 |
20130250289 | CHECK-TILE FOR COLOUR MEASUREMENT INSTRUMENTS - The invention relates to a check-tile for validating instrument scales of colour measurement instruments, in particular of goniospectrophotometers, said check-tile comprising a non-transparent (opaque) substrate coated with a multi-layer coating, said multi-layer coating comprising:
| 09-26-2013 |
20130250291 | CHECK-TILE FOR COLOUR MEASUREMENT INSTRUMENTS - The invention relates to a check-tile for validating instrument scales of colour measurement instruments, in particular of goniospectrophotometers, said check-tile comprising a transparent substrate coated with a multi-layer coating, said multi-layer coating comprising:
| 09-26-2013 |
20130250292 | CHECK-TILE FOR COLOUR MEASUREMENT INSTRUMENTS - The invention relates to a check-tile for validating instrument scales of colour measurement instruments, in particular of goniospectrophotometers, said check-tile comprising a transparent substrate coated with a multi-layer coating, said multi-layer coating comprising:
| 09-26-2013 |
20130258331 | CHECK-TILE FOR COLOUR MEASUREMENT INSTRUMENTS - The invention relates to a check-tile for validating instrument scales of colour measurement instruments, in particular goniospectrophotometers, said check-tile comprising a non-transparent (opaque) substrate coated with a multi-layer coating, said multi-layer coating comprising:
| 10-03-2013 |
20140239234 | SYSTEM FOR MATCHING COLOR AND COARSENESS APPEARANCE OF COATINGS - A method and a system is provided for producing one or more matching formulas to match color and coarseness appearance of a target coating on a substrate. The method includes, but is not limited to providing a set of coating chips comprising at least two coating chips having different lightness values, and at least two coating chips having matching lightness values and different coarseness values. A system is also provided for matching color and coarseness appearance of the surface coating. | 08-28-2014 |
20140327912 | METHOD FOR DETERMINING THE SURFACE GLOSS OF A COLOUR STANDARD - The invention relates to a method for determining the gloss of a colour standard comprising the following steps: A) experimentally determining reflection spectra R(exp) of the colour standard, comprising a first reflection spectrum and a second reflection spectrum, with an integrating sphere colour measurement instrument, wherein said first reflection spectrum is obtained at (A1) d/8-geometry with the specular component included, and said second reflection spectrum is obtained at (A2) d/8-geometry with the specular component excluded, and B) converting reflection spectra data of the experimentally determined reflection spectra R(exp) of the colour standard to gloss values by: B1) acquiring the difference reflection spectrum ΔR of the experimentally determined reflection spectrum R(exp) with the specular component included (A1) and the reflection spectrum R (exp) with the specular component excluded (A2), and B2) determining the gloss values corresponding to said difference reflection spectrum ΔR with the assistance of previously prepared calibration curves, representing the functional relationship between the difference reflection spectrum ΔR and the gloss values measured at one or more gloss angles. | 11-06-2014 |
20140350895 | COLOUR RECIPE CALCULATING METHOD FOR MATT COLOUR STANDARDS - The invention relates to a method for colour recipe calculation for matt colour standards with the steps: A) experimentally determining reflection spectra R(exp) of the colour standard, comprising a first reflection spectrum (SPIN) and a second reflection spectrum (SPEX), with an integrating sphere colour measurement instrument, wherein said first reflection spectrum (SPIN) is obtained at (A1) d/8°—geometry with the specular component included, and said second reflection spectrum (SPEX) is obtained at (A2) d/8°—geometry with the specular component excluded; B1) calculating a recipe for the matt colour standard based on the experimentally determined reflection spectrum R(exp) with the specular component included, which has been corrected for the specular component, or B2) comparing the experimentally determined reflection spectrum R(exp) with the specular component included, en which has been corrected for the specular component, with reflection spectra associated to colour recipes of a colour recipe database for glossy colour shades and identifying from said colour recipe database a stored reflection spectrum which comes closest to the experimentally determined reflection spectrum R(exp) of the matt colour standard, as well as the associated colour recipe; C) converting reflection spectra data of the experimentally determined reflection spectra (SPIN, SPEX) of the matt colour standard to gloss values, and D) converting the gloss values obtained to the amount of matting agent (MAA) with the assistance of previously prepared calibration curves for the available colorant system. | 11-27-2014 |