Patent application number | Description | Published |
20150020403 | METHOD FOR DRYING ARTICLES - A method for drying an article with a radio frequency (RF) applicator having anode elements and cathode elements includes capacitively coupling the anode elements, capacitively coupling the cathode elements, capactively coupling an anode element to a cathode element, and energizing the RF applicator to generate an RF field between anode and cathode elements wherein liquid residing within the field will be dielectrically heated. | 01-22-2015 |
20150047218 | APPLIANCE FOR DRYING ARTICLES - An RF laundry dryer includes, amongst other things, an RF generator, an RF applicator having a perforated body supporting anode and cathode elements, a fan arranged relative to the perforated body to flow or draw air through the perforated body and an electromagnetic shield protecting the fan from the e-field. Both anode and cathode elements are operably coupled to the RF generator to generate an e-field between the anode and cathode upon the energizing of the RF generator. | 02-19-2015 |
20150052774 | METHOD FOR DRYING ARTICLES - An improved method of drying operation for an article using a field of electromagnetic radiation (e-field) generated between an anode element and a cathode element by a radio frequency (RF) applicator between the anode and cathode elements such that liquid in the article will be heated to effect a drying of the article. | 02-26-2015 |
20150052775 | APPLIANCE FOR DRYING ARTICLES - A radio frequency (RF) laundry dryer includes, amongst other things, an RF generator, a drying surface and a Faraday cage enclosing the drying surface. The drying surface on which textiles are supported further includes an RF applicator having an anode and cathode coupled to the RF generator. At least a portion of the cathode substantially encompasses the anode to electrically shield the anode from the Faraday cage ensuring the formation of an e-field between the anode and cathode instead of the anode and the Faraday cage upon energizing the RF generator. | 02-26-2015 |
20150089829 | METHOD AND APPARATUS FOR DRYING ARTICLES - A method and apparatus for drying textile material with a radio frequency (RF) applicator and a controller, the method includes energizing the RF applicator to generate a field of electromagnetic radiation (e-field), measuring a parameter related to the energization of the RF applicator, determining a drying cycle of operation in the controller based on the measured parameter, and controlling the energization of the RF applicator according to the determination of the drying cycle of operation, wherein the textile material is dried. | 04-02-2015 |
20150101207 | METHOD AND APPARATUS FOR DRYING ARTICLES - A method for drying laundry with a radio frequency (RF) applicator having a plurality of baffles on a drum rotatable on a non-vertical axis, an anode element in at least one first baffle and a cathode element in at least one second baffle, the method including capacitively coupling the anode element to the cathode element, and energizing the RF applicator to generate a field of electromagnetic radiation (e-field) between the anode element and the cathode element, wherein liquid in the laundry residing within the e-field will be dielectrically heated to effect a drying of the laundry. | 04-16-2015 |
20150102801 | METHOD AND APPARATUS FOR DETECTING AN ENERGIZED E-FIELD - A method for detecting the presence of an energized e-field in a space, wherein the space includes at least one electrically conductive element disposed in the space and coupled with a controller, the method including receiving in the controller a signal from the at least one electrically conductive element, comparing the value to a threshold, and if the value exceeds the threshold, determining that an energized e-field occupies the space, and sending a signal from the controller indicative of the presence of the energized e-field in the space. | 04-16-2015 |
20150159949 | METHOD FOR DRYING ARTICLES - A method for drying an article with a radio frequency (RF) applicator having anode elements and cathode elements includes capacitively coupling the anode elements, capacitively coupling the cathode elements, capacitively coupling an anode element to a cathode element, and energizing the RF applicator to generate an RF field between anode and cathode elements wherein liquid residing within the field will be dielectrically heated. | 06-11-2015 |