Entries |
Document | Title | Date |
20080264930 | Electric Heating Structure - An electric heating structure including a substrate and a heating element having a given specific resistance. The heating element includes an electrically conductive layer deposited on one of the faces of the substrate and supplied electrically, the heating element including a network of patterns functionally connected to the electrically conductive layer. | 10-30-2008 |
20080296288 | Filter for Diesel Fuel with Heater | 12-04-2008 |
20090134146 | Heating blocks - In order, on the one hand, to achieve a high mechanical long-term stability of and, on the other hand, to have the possibility of guiding a stream of gas, in particular, a stream of gas consisting of a reactive process gas through a heating block for an apparatus for the thermal treatment of a substrate, in particular, a semiconductor substrate, wherein the apparatus has a space accommodating the substrate and the heating block on at least one side of the space accommodating the substrate, the substrate being treatable thermally by means of the heating block in a mechanically non-contact manner, it is suggested that the heating block be designed as a fiber composite member, that the fiber composite member be designed with passages for a stream of gas passing through it from one flat side to the other flat side. | 05-28-2009 |
20100243639 | FLEXIBLE HORIZONTAL ELECTRODE PIPE - A flexible electrode and methods for using the same. The electrode includes one or more flexible conductive portions, and one or more substantially rigid conductive portions. The flexible electrode portion can be a slotted pipe, a flat plate or a rod. Methods for use of the flexible electrodes include in electric resistance heating, including for oil recovery and subsurface soil and water remediation applications. | 09-30-2010 |
20110017726 | HEATING ELEMENT AND MANUFACTURING METHOD THEREOF - Provided are a heating element that includes: a transparent substance; a conductive heating line that is provided on at least one side of the transparent substance; bus bars that is electrically connected to the conductive heating line; and a power portion that is connected to the bus bars, wherein 30% or more of the entire area of the transparent substance has a conductive heating line pattern that is formed of closed figures where a distribution is continuous and a ratio (area distribution ratio) of a standard deviation in respects to an average value of areas of the closed figures is 2% or more, and a method for manufacturing the same. | 01-27-2011 |
20110017727 | HEATING ELEMENT AND MANUFACTURING METHOD THEREOF - Provided are a heating element, which includes: a transparent substance; a conductive heating line that is provided on at least one side of the transparent substance; bus bars that is electrically connected to the conductive heating line; and a power portion that is connected to the bus bars, wherein 30% or more of the entire area of the transparent substance has a conductive heating line pattern in which, when the straight line that intersects the conductive heating line is drawn, a ratio (distance distribution ratio) of standard deviation in respects to an average value of distances between adjacent intersection points of the straight line and the conductive heating line is 2% or more, and a method for manufacturing the same. | 01-27-2011 |
20110049132 | RESISTIVE HEATING DEVICE FOR FABRICATION OF NANOSTRUCTURES - Apparatuses and techniques relating to a resistive heating device are provided. | 03-03-2011 |
20110147368 | Austenitic FE-CR-NI alloy for high temperature use - An austenitic alloy for high temperature use, particularly for use in resistance heating elements. The alloy includes primarily the elements Fe, Ni, and Cr, and it has the following main composition, given in weight %, Ni 38-48, Cr 18-24, Si 1.0-1.9, C<0.1, and the balance Fe. The alloy provides good hot form stability, good oxidation resistance, and a relatively high electrical resistance coupled with a low change in resistance as a function of temperature. | 06-23-2011 |
20110147369 | Thermally Emissive Apparatus - A thermally emissive apparatus ( | 06-23-2011 |
20120055918 | HEAT-GENERATING FILM, AND HEAT-GENERATING PRODUCT COMPRISING SAME - The present invention relates to a heat-generating film and to a heat-generating product comprising same. The heat-generating film of the present invention can continuously and stably generate heat even at a low voltage, for example, at a voltage of 12V or lower. In addition, the heat-generating film of the present invention has excellent comfort properties, filling properties, and flexibility. Accordingly, the heat-generating film of the present invention can be applied to a variety of heat-generating products, for example to a heat-generating sheet for a vehicle or for a baby stroller, or to a variety of portable heat-generating products or the like to exhibit superior effects. | 03-08-2012 |
20120199576 | Low Resistance Electric Heating System - A low resistance electric heating system comprising a low resistance electric conducting material being formed into an electric heating element | 08-09-2012 |
20120217234 | KINETIC SPRAYED RESISTORS - A method of fabricating a kinetic-sprayed resistor for use in a heater, the method including kinetic spraying a powder in a pattern on an electrically-insulating substrate to create a resistive coating on the substrate in the pattern. A kinetic-sprayed resistor for use in a heater having been fabricated via the aforementioned method. A heater including the aforementioned kinetic-sprayed resistor, wherein the resistor is connectable to a power source to generate heat when electrical current runs through the resistor. | 08-30-2012 |
20120273481 | HIGH POWER-DENSITY PLANE-SURFACE HEATING ELEMENT - An electrical heat production device comprising a thin resistive layer sandwiched between a pair of plates having high thermal and electrical conductivity, the stack of layers being insulated around the side surfaces. When a voltage potential is applied across the plates in the disclosed electrical heat production device, an electrical current flows across the resistive layer producing heat within the resistive layer that is conducted through the plates and across the outer surfaces of the plates. A guard heater can be positioned adjacent to one of the outer plate surfaces to bias the heat flow from the resistive layer toward the opposite outer plate surface, such that the apparatus can have a single planar heating surface. | 11-01-2012 |
20120292308 | TWO-WIRE LAYERED HEATER SYSTEM - A heater is provided that includes a resistive layer formed by a layered process (e.g., thick film, thin film, thermal spray, and sol-gel) and two electrical lead wires connected to the resistive layer. The resistive layer has sufficient temperature coefficient of resistance characteristics such that the resistive layer is a heater element and a sensor, and the resistive layer is in communication with a two-wire controller through the two electrical lead wires. Preferably, the sensor is a temperature sensor, and the heater includes additional layers formed by layered processes. | 11-22-2012 |
20130048627 | CERAMIC HEATER AND GAS SENSOR ELEMENT - A ceramic heater in which a heater pattern is formed on a ceramic substrate is disclosed. The heater pattern has a heating element and lead portions. The heating element has heating connection ends and the lead portions have lead connection ends. The heating element and the lead portions are connected at joints which are formed by overlaying the heating connection ends and the lead connection ends. The heater pattern, as viewed in a direction perpendicular to a plane in which the heater pattern is formed, has inwardly recessed concavities formed on both width wise sides of each of the joints. The concavities include portions in each of which a profile of the respective heating connection end crosses a profile of the respective lead connection end. | 02-28-2013 |
20130075387 | METHOD FOR COATING OXIDATION PROTECTIVE LAYER FOR CARBON/CARBON COMPOSITE, CARBON HEATER, AND COOKER - The present invention provides an oven range. In the present invention, a method for coating an oxidation protective layer for a carbon/carbon composite, comprising: dissolving a polymer resin in a solvent to form a solution of polymer resin; dispersing ceramic powders in the solution of polymer resin to form a mixed solution; coating the mixed solution on a carbon fiber; performing a first heat-treatment to treat the carbon fiber by heat in air; and performing a second heat-treatment to treat the carbon fiber by heat under an inert gas. | 03-28-2013 |
20130087551 | INSULATED CONDUCTORS WITH DIELECTRIC SCREENS - An insulated conductor heater includes an electrical conductor that produce heats when an electrical current is provided to the electrical conductor. An inner electrical insulator at least partially surrounds the electrical conductor. The inner electrical insulator includes a first insulation material and a second insulation material. The second insulation material has a higher dielectric constant than the first insulation material. An outer electrical insulator at least partially surrounds the inner electrical insulator. The outer electrical insulator includes the first insulation material. An outer electrical conductor at least partially surrounds the electrical insulator | 04-11-2013 |
20130098898 | Combined Metal PTC Rapid Electric Heater - A combined metal PTC rapid electric heater for use in the electric heating field composes at least one electric heating device. The electric heating device composes a metal PTC tube which is covered by an electric heating tube body. The electric heating tube body composes two straight tubes and one C-shape tube. At one end of a straight tube is a wiring terminal and at another end of that is connected to a C-shape tube. Two straight tubes are connected together by using a C-shape tube. Thus, in this design only one combined metal PTC rapid electric heater is needed for area requiring two common electric heaters. Furthermore, this design can simplify wiring layout during installation since two wiring terminals are located in the same side. | 04-25-2013 |
20130175256 | Heating Element Arrangement for a Vacuum Heat Treating Furnace - A heating element arrangement for a vacuum heat treating furnace is disclosed. The heating element arrangement includes a central heating element array as well as first and second outboard heating element arrays spaced apart from and coaxially aligned with the central heating element array. The heating element arrangement also includes first and second end heating elements disposed at respective first and second end positions relative to the central heating element array and the first and second outboard heating element arrays. Power transformers are operatively connected to the central heating element array, to the first outboard heating element array and first end heating element array, and to the second outboard heating element array and second end heating element array for providing electric current to the respective heating element arrays. | 07-11-2013 |
20130175257 | PLANE HEATING ELEMENT USING CERAMIC GLASS - The present invention relates to a plane heating element which is supplied with power to generate heat. The plane heating element may include a support layer made of ceramic glass, a heat-generating layer which is formed by printing heat-generating paste on the upper surface of the support layer, and an insulating layer which is formed by applying insulating paste on the upper surface of the heat-generating layer. The heat generating paste may be dried and plasticized, and receives predetermined power to generate heat. The insulating paste may be dried and plasticized and may be configured to insulate the and prevent oxidation of the heat-generating layer. The present invention provides a strong adhesion with respect to a glass substrate and makes it possible to increase temperature up to a target level in a short time, and thus can be used as an effective printing method in various electric and electronic product fields. | 07-11-2013 |
20130256298 | HEATER AND GLOW PLUG PROVIDED WITH SAME - A heater includes an insulating base body; a resistor embedded in the insulating base body; and a lead embedded in the insulating base body and including one end connected to the resistor, and a terminal portion at another end thereof which is exposed from a surface of the insulating base body. The lead further includes a bent portion bent toward the terminal portion, and an aspect ratio in at least one cross section of the bent portion is larger than an aspect ratio in another cross section of the bent portion, the another cross section being positioned closer to the terminal portion than the at least one cross section of the bent portion. | 10-03-2013 |
20130277359 | PTC RESISTOR - A PTC resistor according to the present invention comprises at least one PTC composition which comprises at least one resin and at least two conductive materials. The at least two conductive materials comprises at least two conductive materials different from each other. The at least one PTC composition may comprise a first PTC composition which comprises a first resin and at least one first conductive material and a second PTC composition which is compounded with the first PTC composition and comprises a second resin and at least one second conductive material. The at least one first conductive material is at least partially different from the at least one second conductive material. One of the first resin and the second resin may comprise a reactant resin and a reactive resin which is cross-linked with the reactant resin. The PTC resistor may comprise a flame retardant agent. The PTC resistor may comprise a liquid-resistant resin. | 10-24-2013 |
20140042150 | RESISTIVE HEATING DEVICE FOR FABRICATION OF NANOSTRUCTURES - Apparatuses and techniques relating to a resistive heating device are provided. | 02-13-2014 |
20140091079 | FILAMENT LAMP FOR HEATING - Disclosed herein are a filament lamp for heating a disk-shaped workpiece in such a way that the filament lamp rotates relative to the workpiece and radiates light thereonto. Further, the present invention provides a structure that enables the filament lamps to uniformly heat the workpiece even with respect to the radial direction of the workpiece. For this, the filament lamp includes an arc-shaped emitting part which extends in a circumferential direction of the relative rotation, and an auxiliary emitting part which is disposed inside a circle extending along the arc-shaped emitting part and extends from the arc-shaped emitting part in a direction crossing the circle. In addition, the present invention is configured such that areas of the workpiece that correspond to spaces between the arc-shaped emitting parts of the adjacent filament lamps pass just below the corresponding auxiliary emitting parts. | 04-03-2014 |
20140110400 | REMOVABLE HEATER FOR COMMUNICATION ANTENNA - A heater assembly including a foil heater having at least one slot. The heater assembly includes an insulating plate configured to electrically and thermally insulate the foil heater, the insulating plate having a central opening, at least one first mounting hole and at least one first fastening hole. The heater assembly includes a heat dissipation element configured to conduct heat from the foil heater to an exterior of the heater assembly, the heat dissipation element having at least one second mounting hole and at least one second fastening hole. The foil heater is between the insulating plate and the heat dissipation element. The at least one first mounting hole, the at least one slot and the at least one second mounting hole are aligned. The at least one first fastening hole, the at least one slot and the at least one second fastening hole are aligned. | 04-24-2014 |
20140124500 | INSULATED HEATER - An insulated heater includes a heating unit, two thermal diffusion units and a heat conduction glue. The heating unit includes two electrode plates and at least one PTC heating plate. The PTC heating plate is sandwiched between two electrode plates. The thermal diffusion unit includes a corrugated metal fin and two heat conduction plates, and the corrugated metal fin is sandwiched between two heat conduction plates. Each thermal diffusion unit is attached to one of the electrode plates via the heat conduction plate, and the heat conduction glue is spread between each electrode plate and the thermal diffusion unit attached to the electrode plate. The thermal resistance between the thermal diffusion unit and the electrode plate can decrease by directly binding the thermal diffusion unit and the electrode plate with the heat conduction glue. | 05-08-2014 |
20140231412 | FULL SUPPORT HEATING ELEMENT APPARATUS - An electric heater apparatus for heating air is disclosed, comprising a heater coil assembly including a coil support comprising a panel around which lies a coil of an electrical resistance element from approximately one end of the panel to approximately an opposite end, the coil of the electrical resistance element comprising a pass of spaced apart loops, the coil support configured to support the spaced apart loops | 08-21-2014 |
20150327331 | ADHESIVE AND HEATING ELEMENT LAMINATE FOR ATTACHING EVA PADDING - A method for attaching padding material to a surface of a structural component, e.g., a lap bar or other park ride vehicle component. The method includes positioning a laminated sheet onto the surface of the structural component, with the laminated sheet including an adhesive material and a heating element. The method includes positioning a pad formed of the padding material onto the surface of the structural component, with a surface of the pad abuts an exposed surface of the laminated sheet. Further, the method involves connecting the heating element to a power source and then operating the power source to activate the heating element. The padding material may include ethylene vinyl acetate (EVA), and the adhesive material then is compatible with EVA. The adhesive material may be provided in first and second layers, and the heating element is sandwiched between the first and second layers in the laminated sheet. | 11-12-2015 |
20190150227 | Dental Furnace And Process For Operating A Dental Furnace | 05-16-2019 |