Class / Patent application number | Description | Number of patent applications / Date published |
237070000 | HEAT RADIATORS | 6 |
237071000 | Water, steam | 2 |
20090314848 | Radiant Heating System and Method - The present invention relates generally to a radiant heating assembly, system and method. One or more elongate thermally insulative panels are coupled to one or more elongate structural members wherein each such panel assembly may be placed adjacent or in longitudinal alignment with another such panel assembly. The structural members are configured to extend longitudinally and/or recess longitudinally with respect to the structural members for assisting in longitudinal alignment thereof. The thermally insulative panels may include a radiant heating element received on a surface thereof. A tubing for transporting heated water or electrical energy may be received by the radiant heating element for delivering heat therethrough. One or more edge panels may be positioned at a longitudinal edge of the thermally insulative panels wherein a groove in a surface thereof provides for the delivery of the tubing from one thermally insulative panel to another. | 12-24-2009 |
20100314459 | RADIANT MODULE FOR A HEATING DEVICE FOR ROOMS, AND METHOD TO PRODUCE SAID RADIANT MODULE - Radiant module and relative method of production, for a heating device for rooms, comprising two heat-conductor plates, respectively first and second, associated with each other to define a central portion inside which a heated heat-carrying fluid flows. The first heat-conductor plate comprises lateral walls which develop from the central portion away from the second heat-conductor plate, to define a channel inside the radiant module which develops and narrows from the lower part of the radiant module towards its upper part and through which a flow of heated air is accelerated and guided. | 12-16-2010 |
237073000 | Steam | 1 |
237074000 | Circuit | 1 |
20140217190 | A TUBULAR SECTION BAR FOR A BIPHASIC RADIATOR AND RELATIVE BIPHASIC RADIATOR - A tubular section bar ( | 08-07-2014 |
237076000 | Ceramic | 2 |
20080203180 | Arrangement of Porcelaneus Stoneware Plates for Use as an Accumulator and a Radiant Element for Heating - The invention relates to an arrangement for the heating of porcelaneous stoneware plates for use as an accumulator and a radiant element for heating, comprising the use of porcelaneous stoneware plates having a rear cover of synthetic metal ( | 08-28-2008 |
20090277969 | Radiant Heat Transfer System - A radiant heat transfer system has one or more radiant elements inserted in a radiant source. Radiant elements convert the combustion products from burning fuel into radiant energy. A radiant element may be formed from one or more ceramics and may be used in radiant sources, such as radiant tubes, immersion tubes, heat exchanger tubes, boiler walls, and other radiant heat applications. Each radiant element has a core section defining a longitudinal cavity enabling the insertion of a positioning mechanism. Each radiant element may have one or more normal and/or tangential wings attached to the exterior of the core section. Each radiant element may produce a more laminar or less turbulent flow of combustion products within the radiant source. | 11-12-2009 |
237077000 | Foot warmer | 1 |
20130026245 | PERSONAL SPACE HEATER - A heater having a housing including a bottom wall with a peripheral wall extending upwardly and outwardly away therefrom. A cavity is bounded and defined by the bottom and peripheral walls and a temperature control mechanism is disposed within the cavity. A footrest is engaged with the peripheral wall and closes off access to the cavity. The footrest is inclined at an angle relative to the bottom wall and slopes upwardly from a front region of the housing toward the back region thereof. The footrest includes a grid with a plurality of slats disposed thereon. The grid defines a plurality of apertures therein and the slats are spaced a distance apart from each other. When the temperature control mechanism is activated, air within the cavity is heated or cooled and is driven by a fan out of the aligned apertures and gaps. The slats are warmed or cooled by the driven air. The fan may be activated independently of the temperature control mechanism. | 01-31-2013 |