Patent application number | Description | Published |
20130086923 | THERMOELECTRIC DEVICE CONTROLS AND METHODS - According to some embodiments, a thermoelectric system comprises a thermoelectric device having a first surface and a second surface and a power source configured to deliver a voltage across the thermoelectric device to selectively activate or deactivate the thermoelectric device, wherein the first surface is configured to heat and the second surface is configured to cool when the thermoelectric device is activated. The system further comprises a processor configured to determine a potential between the first surface and the second surface when the thermoelectric device is deactivated, correlate the potential to a temperature of the first surface and adjust the correlated temperature of the first surface based on an ambient temperature. | 04-11-2013 |
20130097777 | FLUID DELIVERY SYSTEMS FOR CLIMATE CONTROLLED SEATS - A seat portion or a backrest portion of seating assembly comprises a recessed area or wide groove along its exterior surface. The recessed area can be configured to receive a spacer (e.g., spacer fabric, member, module, etc.) that helps maintains the spatial and structural integrity of the recessed area. In addition, a scrim layer can be positioned over the spacer fabric to help direct and/or distribute air or other fluid to an exterior surface of the seating assembly. The recessed area can also be configured to receive one or more films, occupant sensory devices, comfort layers, scrims, temperature sensors, heating devices and/or the like. | 04-25-2013 |
20130146116 | THERMOELECTRIC DEVICES WITH INTERFACE MATERIALS AND METHODS OF MANUFACTURING THE SAME - Thermoelectric devices with interface materials and methods of manufacturing the same are provided. A thermoelectric device can include at least one shunt, at least one thermoelectric element in thermal and electrical communication with the at least one shunt, and at least one interface material between the at least one shunt and the at least one thermoelectric element. The at least one interface material can comprise a plurality of regions comprising a core material with each region separated from one another and surrounded by a shell material. The interface material can be configured to undergo deformation under (i) a normal load between the at least one shunt and the at least one thermoelectric element or (ii) a shear load between the at least one shunt and the at least one thermoelectric element. The deformation can reduce interface stress between the at least one shunt and the at least one thermoelectric element. | 06-13-2013 |
20130192271 | TEMPERATURE CONTROL SYSTEMS WITH THERMOELECTRIC DEVICES - Temperature control systems and methods can be designed for controlling the interior climate of a vehicle or other the climate of another desired region. The temperature control system for a vehicle can have a thermoelectric system providing heating and/or cooling, including supplemental heating and/or cooling. The thermoelectric system can transfer thermal energy between a working fluid, such as liquid coolant, and comfort air upon application of electric current of a selected polarity. The thermoelectric system can supplement or replace the heat provided from an internal combustion engine or other primary heat source. The thermoelectric system can also supplement or replace cold energy provided from a compressor-based refrigeration system or other primary cold energy source. | 08-01-2013 |
20130192272 | TEMPERATURE CONTROL SYSTEMS WITH THERMOELECTRIC DEVICES - Temperature control systems and methods can be designed for controlling the interior climate of a vehicle or other the climate of another desired region. The temperature control system for a vehicle can have a thermoelectric system providing heating and/or cooling, including supplemental heating and/or cooling. The thermoelectric system can transfer thermal energy between a working fluid, such as liquid coolant, and comfort air upon application of electric current of a selected polarity. The thermoelectric system can supplement or replace the heat provided from an internal combustion engine or other primary heat source. The thermoelectric system can also supplement or replace cold energy provided from a compressor-based refrigeration system or other primary cold energy source. | 08-01-2013 |
20130198954 | TOPPER MEMBER FOR BED - According to certain arrangements, a conditioner mat for use with a bed assembly includes an upper layer comprising a plurality of openings, a lower layer being substantially fluid impermeable, at least one interior chamber defined by the upper layer and the lower layer and a spacer material positioned within the interior chamber. In one embodiment, the spacer material is configured to maintain a shape of the interior chamber and to help with the passage of fluids within a portion of interior chamber. The conditioner mat can be configured to releasably secure to a top of a bed assembly. | 08-08-2013 |