Patent application number | Description | Published |
20110127248 | THIN FILM ENERGY FABRIC FOR SELF-REGULATING HEAT GENERATION LAYER - The Thin Film Energy Fabric includes an energy storage section; an energy release section coupled to the energy storage section; and an energy recharge section. In the energy release section, a self-regulating heater regulates itself specifically to a temperature determined before manufacture. This means that the resistive heating element changes its resistance depending on the instantaneous temperature of the heater without the use of sensors and added circuitry. In addition, the Positive Temperature Coefficient resistive heater is powered by the DC voltage output by the energy storage layer without the need for voltage converters or complex control circuitry. | 06-02-2011 |
20110128686 | THIN FILM ENERGY FABRIC WITH ENERGY TRANSMISSION/RECEPTION LAYER - The Thin Film Energy Fabric includes an energy storage section adapted to store electrical energy; an energy release section coupled to the energy storage section and configured to receive electrical energy from the energy storage section and to utilize the electrical energy; and an energy recharge section, coupled to the energy storage section, adapted to receive or collect energy and convert the received or collected energy to electrical energy either for storage by the energy storage section or for use by the energy release section or simultaneous storage in the energy storage section and immediate use by the energy release section. The energy release section can provide electrical energy transmission capability to charge devices which are placed in a position juxtaposed to a surface of the Thin Film Energy Fabric. | 06-02-2011 |
20110128726 | THIN FILM ENERGY FABRIC WITH LIGHT GENERATION LAYER - The Thin Film Energy Fabric includes an energy storage section adapted to store electrical energy; an energy release section coupled to the energy storage section and configured to receive electrical energy from the energy storage section and to utilize the electrical energy; and an energy recharge section, coupled to the energy storage section, adapted to receive or collect energy and convert the received or collected energy to electrical energy either for storage by the energy storage section or for use by the energy release section or simultaneous storage in the energy storage section and immediate use by the energy release section. The energy release section can provide electrical energy transmission capability to charge devices which are placed in a position juxtaposed to a surface of the Thin Film Energy Fabric. An optional protection section is provided on at least one side of the material. | 06-02-2011 |
20110130813 | THIN FILM ENERGY FABRIC FOR SELF-REGULATING HEATED WOUND DRESSINGS - The Self-Regulating Heated Wound Dressing includes an energy storage section adapted to store electrical energy; an energy release section coupled to the energy storage section and configured to receive electrical energy from the energy storage section and to utilize the electrical energy in the generation of a thermal energy used to self-regulate the temperature of a heated wound dressing; and an energy recharge section, coupled to the energy storage section, adapted to receive or collect energy and convert the received or collected energy to electrical energy either for storage by the energy storage section or for use by the energy release section or simultaneous storage in the energy storage section and immediate use by the energy release section. | 06-02-2011 |
20120311885 | THERMAL FOOTWEAR SYSTEM - The Thermal Footwear System includes an energy storage section adapted to store electrical energy and an energy release section electrically coupled to the energy storage section, configured to receive electrical energy from the energy storage section and utilize the electrical energy for production of thermal energy without requiring the use of energy overhead elements which cause expenditure of energy for other than heat generation. The Thermal Footwear System also provides for an energy storage section and a self-regulating energy release section printed on a substrate that can be physically separate and still remain electrically coupled. The energy release section typically comprises a multilayer device that consists of an active thermal element with a wide resistive range generating the thermal output, a thermally conductive guidance layer evenly distributing the generated heat over a predetermined area, and a thermally insulating impedance layer reducing the loss of generated heat to the ambient environment. | 12-13-2012 |
20140117059 | Sensor Mounting Apparatus and Methods of Using Same - An apparatus to allow a one-handed operation of mounting a vibration sensor to a mounting pad adhered to a machine. An attachment screw includes a recessed socket with a detent to releasably retain a ball-end hex driver such that the driver can remain coupled to the attachment screw without force being applied by the user. Also, a handheld device includes a driver having a handle portion and a driver shaft extending therefrom, the driver shaft having a driver portion at a distal end, and a vibration sensor support configured to support the vibration sensor such that the driver portion has access to an attachment screw threaded through the vibration sensor, and coupled to the driver such that the vibration sensor support is rotatable around a longitudinal axis of the driver shaft and slidable along a longitudinal portion of the driver shaft. | 05-01-2014 |