Patent application number | Description | Published |
20080278816 | Structured surfaces that exhibit color by rotation - An optically variable device is disclosed having a substrate with an array of pyramidal structures formed upon it or within it. The structures are preferably formed by printing pyramids with an optically variable color-shifting ink using an Intaglio-like printing process. Alternatively the structure can be formed by embossing a layer of ink with positive pyramids so as to yield an array of positive embossed pyramids. Each of the structures form a pyramidal-like having at least three slanted faces and wherein one or more than one color is seen when viewing the pyramids vary as substrate is rotated at least 30 degrees about an axis orthogonal to the substrate. In order to see a color shift the device is rotated around the surface normal of the substrate, while keeping the angle of incidence to the light source the same, and keeping the viewing angle the same. Various forms of pyramids may be used, however pyramids with planar faces are most suitable. | 11-13-2008 |
20080286501 | Structured surfaces that exhibit color by rotation - An optically variable device is disclosed having a substrate with an array of pyramidal structures formed upon it or within it. The structures are coated with an optically variable color-shifting coating. Each of the structures form a pyramidal-like having at least three slanted faces and wherein one or more colors seen when viewing the pyramids vary as substrate is rotated at least 30 degrees about an axis orthogonal to the substrate. In order to see a color shift the device is rotated around the surface normal of the substrate, while keeping the angle of incidence to the light source the same, and keeping the viewing angle the same. Various forms of pyramids may be used, however pyramids with planar faces are most suitable. | 11-20-2008 |
20090072185 | Anisotropic Magnetic Flakes - The invention relates to anisotropic, reflective, magnetic flakes. In a liquid carrier and under influence of an external magnetic field, the flakes attract to one another side-by-side and form ribbons which provide higher reflectivity to a coating and may be used as a security feature for authentication of an object. | 03-19-2009 |
20100002275 | Security Device With Metameric Features Using Diffractive Pigment Flakes - A metameric optical structure is disclosed having first optical structures comprising diffractive flakes having diffractive structures thereon, and a second optical structures having non-diffractive flakes which may have other special effect properties, such as color shifting. At one angle of incidence or one viewing angle, near normal. The hues match and at other angles they do not match. The diffractive flakes are preferably magnetically aligned so that the grating structures are parallel. Disclosed is also an image formed of at least a first region of diffractive flakes and a second region of non-diffractive flakes wherein the regions are adjacent one another and wherein one of the regions forms a logo, symbol or indicia that appears or disappears in dependence upon the angle of viewing. | 01-07-2010 |
20100206953 | DURABLE WASHABLE LABEL HAVING A VISIBLE DIFFRACTION GRATING PATTERN - This invention provides an improved and novel thin and pliable holographic fabric label that possesses durability, high intensity of holographic diffraction, laundering resistance, minimal alteration and degradation to the fabric and the label through extended use, and the ability to be cost-effectively mass produced is described. High bond is formed at multiple inter polymer interfaces and reflective diffractive layer is protected within the construction, superior durability to repetitious laundering, dry clean cycle and mechanical wear with long lasting diffracting effect and visual authentication property is realized. | 08-19-2010 |
20110035695 | KEYBOARD FOR A TOUCH SCREEN - A tactile keyboard provides a user of a touch sensitive device having a soft keyboard with a mountable keyboard with distinct keys. The mountable keyboard can be placed directly upon the soft keyboard and facilitates typing. As the hard keys on the mountable keyboard are depressed they simultaneously depress same keys on the soft keyboard which is removably attached to the touch screen device. | 02-10-2011 |
20110050158 | System for storing electrical energy - A method and apparatus are described for storing electrical power in the form of relative chemical potential between a concentrated solution, typically salt brine, and a dilute version of the same solution. To recover the power, the concentrated solution and dilute solution are supplied to a means for transforming the difference in their chemical potential into electrical power by such means as pressure retarded osmosis or reverse electrodialysis. In operation such means take in the concentrated and dilute solutions and exhaust a solution of intermediate concentration. The concentrated solution is supplied from a container such as a pond. It is generated by evaporation of the intermediate concentration solution in a second, separate pond, which receives the exhaust from the power generation means. The exhaust solution is concentrated by evaporation and is transferred into the first pond when the concentration has reached a sufficient level. To obtain a high evaporation rate in a relatively small evaporation area, the evaporation is enhanced to a rate faster than that obtained at the liquid surface of an open pond of the solution by employing electrical evaporation enhancement means. The electrical evaporation enhancement means is programmed to draw power from an electrical supply grid during periods when electricity demand is low and or when the cost of electricity is below or equal to an average cost over a period such as a diurnal cycle. When demand is high the enhancement is discontinued and the power generation means uses the stored concentrated brine to generate extra electrical power. Therefore the enhancement means would be used less than 30% of the time when the stored concentrated brine is being used to generate electrical power. | 03-03-2011 |
20110086250 | METHOD AND APPARATUS FOR STORING ELECTRICAL POWER BY EVAPORATING WATER - Electrical energy is stored in a concentrated solution. To recover the energy, the concentrated solution is rediluted for example by pressure retarded osmosis. The concentrated solution is generated by evaporation of the exhaust solution from the energy recovery process. The evaporation is enhanced by electrically powered enhancement means and the corresponding electrical input constitutes the power to be stored. The enhanced evaporation also draws heat from the environment, whereby the input electrical energy is augmented, partially or completely offsetting inefficiencies in the system. In grid applications, when demand for electricity is high the enhancement is discontinued and power is generated from the stored concentrated brine. Alternatively the evaporation enhancement may draw power from a power source that does not operate continuously, such as a renewable energy source. The stored brine is employed to generate power during periods when the renewable energy source falls below a predetermined power supply capability. | 04-14-2011 |
20110181928 | DURABLE WASHABLE LABEL HAVING A VISIBLE DIFFRACTION GRATING PATTERN - This invention provides an improved and novel thin and pliable holographic fabric label that possesses durability, high intensity of holographic diffraction, laundering resistance, minimal alteration and degradation to the fabric and the label through extended use, and the ability to be cost-effectively mass produced is described. High bond is formed at multiple inter polymer interfaces and reflective diffractive layer is protected within the construction, superior durability to repetitious laundering, dry clean cycle and mechanical wear with long lasting diffracting effect and visual authentication property is realized. | 07-28-2011 |
20110204841 | System for storing electrical energy - A method and apparatus are described for storing electrical power in the form of relative chemical potential between a concentrated solution, typically salt brine, and a dilute version of the same solution. To recover the power, the concentrated solution and dilute solution are supplied to a means for transforming the difference in their chemical potential into electrical power by such means as pressure retarded osmosis or reverse electrodialysis. In operation such means take in the concentrated and dilute solutions and exhaust a solution of intermediate concentration. The concentrated solution is supplied from a container such as a pond. It is generated by evaporation of the intermediate concentration solution in a second, separate pond, which receives the exhaust from the power generation means. The exhaust solution is concentrated by evaporation and is transferred into the first pond when the concentration has reached a sufficient level. To obtain a high evaporation rate in a relatively small evaporation area, the evaporation is enhanced to a rate faster than that obtained at the liquid surface of an open pond of the solution by employing electrical evaporation enhancement means. The electrical evaporation enhancement means is programmed to draw power from an electrical supply grid during periods when electricity demand is low and or when the cost of electricity is below or equal to an average cost over a period such as a diurnal cycle. When demand is high the enhancement is discontinued and the power generation means uses the stored concentrated brine to generate extra electrical power. Therefore the enhancement means would be used less than 30% of the time when the stored concentrated brine is being used to generate electrical power. | 08-25-2011 |
20120070798 | LIGHT PROTECTION SHIELD FOR LIGHT DELIVERY SYSTEM - A dental shield for lessening unwanted hazardous reflections of light in a wavelength band between 400 nm and 500 nm. The dental shield is similar to a traditional shield used on a hand held light delivery device, however the shield is antireflective coated on one or both sides to protect the non-user of the shield; the patient, so that harmful reflections into the patient's eyes can be lessened. The filter prevents at least 98% of UV or blue light from being reflected. | 03-22-2012 |
20120162344 | SYSTEM AND METHOD FOR FORMING AN IMAGE ON A SUBSTRATE - A scanning laser having a wavelength compatible with a coating binder so as to cure it as the laser scans and irradiates the coating on a moving web. A system and method for curing flakes by providing a scanning laser which scans across a moving coated substrate in a magnetic field allows images to be formed as magnetically aligned flakes are cured into a fixed position. The images have regions of cured aligned flakes. The scanning laser cures the magnetically aligned flakes within it region it irradiates. Alternatively an array of lasers can be used wherein individual lasers can be switched on and off to fix irradiated coating as a moving web is moved at a high speed. | 06-28-2012 |
20140102363 | SYSTEM AND METHOD FOR FORMING AN IMAGE ON A SUBSTRATE - A scanning laser having a wavelength compatible with a coating binder so as to cure it as the laser scans and irradiates the coating on a moving web. A system and method for curing flakes by providing a scanning laser which scans across a moving coated substrate in a magnetic field allows images to be formed as magnetically aligned flakes are cured into a fixed position. The images have regions of cured aligned flakes. The scanning laser cures the magnetically aligned flakes within it region it irradiates. Alternatively an array of lasers can be used wherein individual lasers can be switched on and off to fix irradiated coating as a moving web is moved at a high speed. | 04-17-2014 |