| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | LAMP AND HEATING DEVICE | EP09727991 | 2009-03-27 | EP2259659A4 | 2011-08-24 | MAEDA NORIYUKI; IWAHARA KENGO |
| 22 | Artificial light and evacuated tube boiler | US14174270 | 2014-02-06 | US09857097B2 | 2018-01-02 | Brian Dunn |
| An evacuated tube boiler comprised of one or more evacuated tubes and a header, operatively connected to form a common internal volume. The internal volume further containing a first heating fluid. A conduit system conducting a second heating fluid through the header and first heating fluid. One or more artificial light sources in proximity to the evacuated tubes. In operation, the artificial light sources radiate light and/or thermal energy to the evacuated tubes whereby the first heating fluid is efficiently heated. The conduit system conducts the second heating fluid through the header and first heating fluid, whereby heat from the first heating fluid is transferred to the second heating fluid. The conduit system conducts the second heating fluid to the point of use. The apparatus may be used in a hydronic boiler heating system for heating a dwelling. | ||||||
| 23 | Liquid heating apparatus and liquid heating method | US12737930 | 2009-08-31 | US09485807B2 | 2016-11-01 | Minoru Uchida; Tsuyoshi Maruyama |
| Provided is a liquid heating apparatus capable of heating fluid such as peroxosulfuric acid solution to high temperature in a short time. The heating apparatus includes: a flow channel member forming a flow channel 4 allowing liquid to flow and having flow channel thickness of 10 mm or smaller, the flow channel member composed of material transmitting near-infrared rays; and a near-infrared heaters 7, 8 placed over the outside of at least one of opposite flow channel surfaces of the flow channel and heating the liquid in the flow channel. The liquid flowing through the flow channel is instantaneously and evenly heated using near-infrared rays. It is preferable that spacers 6 be further provided within the flow channel 4 in order to limit the volume of the flow channel. Since not only the residence time in the heating apparatus can be shortened but the possible largest heat transfer area can be also maintained by decreasing the volume of the flow channel of the heating apparatus and by increasing the flow velocity in the heating apparatus, it is possible to increase the temperature of liquid to be heated to high temperature in a very short time even if the preset temperature of heat transfer surfaces is low. | ||||||
| 24 | Grounding system for a heated hose | US13657106 | 2012-10-22 | US08863782B2 | 2014-10-21 | William Ferrone |
| A grounded electrical circuit in a heated hose is provided. In one embodiment, the heated hose assembly includes: a flexible hose body; a first and a second heating wires and a hose ground wire each extending longitudinally and parallel to an axis of the hose body and within an inner wall; a first fluid coupling provided on the first end portion of the flexible hose body, the first fluid coupling comprising a stem inserted into the flexible hose body and radially clamping an end of the hose ground wire against an inner surface of the inner wall, such that a contact between the first fluid coupling and the end of the hose ground wire grounds the hose ground wire; a power cord electrically connected to the first and second heating wires and to the hose ground wire; and a thermostat electrically connected to the first and second heating wires. | ||||||
| 25 | Liquid heating unit, liquid processing apparatus including the same, and liquid processing method | US13217080 | 2011-08-24 | US08670656B2 | 2014-03-11 | Toshihiko Nishida; Kazuyoshi Eshima; Hisakazu Nakayama |
| Disclosed are a liquid heating unit capable of monitoring the temperature of the liquid storage tank or pipe in which liquid is heated by transmission of the radiated light, a liquid processing apparatus including the same, and a liquid processing method. The liquid heating unit includes: a lamp heater radiating light; a cylindrical member made of material transmitting the radiated light and having a cylindrical shape in which the lamp heater is able to be inserted and penetrated into an internal space thereof; a liquid pipe placed along an outer periphery of the cylindrical member and configured to heat liquid flowing therein using the radiated light; a reflection plate that covers the liquid pipe from the outside and reflects the radiated light; and a first temperature sensor attached to an outer surface of the reflection plate. | ||||||
| 26 | Pendent Lamp Having An Air Conditioning Function | US13241439 | 2011-09-23 | US20130078902A1 | 2013-03-28 | Chen-Yu Chung; Sheng-Chi Chung |
| A pendent lamp includes a support member mounted on a ceiling, a lighting unit mounted on the support member, an air conditioning unit mounted on the support member, a hood connected with the air conditioning unit, and at least one baffle mounted in the hood. Thus, the air conditioning unit supplies cold air or hot air to the house to decrease or increase the temperature in the house to provide a cooling or warming effect to the house so as to regulate the temperature of the house at the optimum value. | ||||||
| 27 | GROUNDING SYSTEM FOR A HEATED HOSE | US13657106 | 2012-10-22 | US20130042938A1 | 2013-02-21 | William Ferrone |
| A grounded electrical circuit in a heated hose is provided. In one embodiment, the heated hose assembly includes: a flexible hose body; a first and a second heating wires and a hose ground wire each extending longitudinally and parallel to an axis of the hose body and within an inner wall; a first fluid coupling provided on the first end portion of the flexible hose body, the first fluid coupling comprising a stem inserted into the flexible hose body and radially clamping an end of the hose ground wire against an inner surface of the inner wall, such that a contact between the first fluid coupling and the end of the hose ground wire grounds the hose ground wire; a power cord electrically connected to the first and second heating wires and to the hose ground wire; and a thermostat electrically connected to the first and second heating wires. | ||||||
| 28 | HEATING APPARATUS | US13467094 | 2012-05-09 | US20120308216A1 | 2012-12-06 | Donald William BRYCE |
| An electrical heating apparatus includes a stationary housing having a lower base portion, an upper control portion, and a column portion extending from and rigidly connecting the base and control portions. The base and control portions define first and second parallel and horizontally spaced-apart vertical housing axes, and the control portion includes control circuitry and first and second direction controllers. First and second heating units each include a radiant heating element and a reflector, the heating elements adapted upon energization to radiate heat, and the reflector disposed and adapted to reflect the radiated heat from the heating unit. The heating units each engage the base and control portions of the housing, is engaged by one of the direction controller, and has a pivot axis disposed coaxial with and pivotable about one of the housing axes. | ||||||
| 29 | HEATING SYSTEM UTILIZING WASTE HEAT FROM ILLUMINATING DEVICE | US12916813 | 2010-11-01 | US20120103574A1 | 2012-05-03 | MingWei Zhu |
| A heating system utilizing waste heat from illuminating device includes at least one illuminating device and a water supply device. The illuminating device has at least one light-emitting module, which has one side in contact with at least one heat-dissipation device. The heat-dissipation device and the water supply device are connected to each other via a pipeline. Water is supplied by the water supply device to the heat-dissipation device for directly absorbing heat that is transferred from the light-emitting module to the heat-dissipation device and accordingly cooling the heat-dissipation device. The heat-absorbed water is then delivered via the pipeline to a water reservoir for people to use. Thus, waste heat produced by the illuminating device is effectively converted into a usable energy source to be fully utilized. | ||||||
| 30 | Multi-temperature control system and fluid temperature control device applicable to the same system | US765918 | 1997-01-03 | US6157778A | 2000-12-05 | Kanichi Kadotani |
| A fluid temperature control device is improved to be simpler in structure, less in fluid temperature non-uniformity, and able to heat a fluid having a small light absorbability. The fluid temperature control device has a cylindrical inner vessel (20), a cylindrical outer vessel (22) surrounding the inner vessel (20), and a heating lamp (25) inserted into the inner vessel (20). Metal fins (28a) and (28b) are provided on the inner and outer circumferential surfaces of the inner vessel (20). A working fluid is passed through the inner space (21) between the inner vessel (20) and the heating lamp (25), and a cooling liquid is passed through the outer space (23) between the inner vessel (20) and the outer vessel (22). Infrared rays from the heating lamp (25) heat the working fluid, and the cooling liquid cools the working fluid. This device is applicable to, for instance, temperature control of plural process chambers of semiconductor processing apparatus. A plurality of the temperature control devices are arranged in the vicinity of the semiconductor processing apparatus. Each of the devices is assigned to each of plural portions of the process chambers and provides the temperature-controlled fluid exclusively to each portion. | ||||||
| 31 | STEAM GENERATOR AND REACTOR | US16392917 | 2019-04-24 | US20190249863A1 | 2019-08-15 | Imad Mahawili |
| A method of producing an active chemical species, steam or superheated steam includes flowing one or more fluids through a conduit, locating one or more incandescent lights in close proximity to the conduit, and using at least a portion of the heat emitted from the one or more incandescent lights to heat the one or more fluids flowing through the conduit so that the fluid or fluids are disassociated into chemical components, associated into a new compound, or converted into steam. | ||||||
| 32 | HEATING DEVICE | US14994648 | 2016-01-13 | US20160209078A1 | 2016-07-21 | Stylianos Giannoulis |
| A heating device including: a housing having an opening and surrounding an interior space. A fan is arranged in proximity to the housing. A heating element is arranged in the housing, and a heat distribution element arranged in the housing and in proximity to the heating element. The heating element is adapted to generate heat. The heat distribution element is adapted to transfer the heat generated by the heating element to air in the interior space, and the fan is adapted to provide a flow of air through the interior space of the housing such that the air is heated. The heated air leaves the housing through the opening. | ||||||
| 33 | INFRA-RED DEVICE FOR FOCUSED HEATING | US14437935 | 2013-10-29 | US20150282252A1 | 2015-10-01 | Søren Stig Abildgaard |
| A heating system comprises at least one IR heating device 3 and at least one optical element arranged to focus or direct IR radiation emitted by the IR heating device 3 onto an object to be heated 1. | ||||||
| 34 | ARTIFICIAL LIGHT AND EVACUATED TUBE BOILER | US14174270 | 2014-02-06 | US20140226958A1 | 2014-08-14 | Brian Dunn |
| An evacuated tube boiler comprised of one or more evacuated tubes and a header, operatively connected to form a common internal volume. The internal volume further containing a first heating fluid. A conduit system conducting a second heating fluid through the header and first heating fluid. One or more artificial light sources in proximity to the evacuated tubes. In operation, the artificial light sources radiate light and/or thermal energy to the evacuated tubes whereby the first heating fluid is efficiently heated. The conduit system conducts the second heating fluid through the header and first heating fluid, whereby heat from the first heating fluid is transferred to the second heating fluid. The conduit system conducts the second heating fluid to the point of use. The apparatus may be used in a hydronic boiler heating system for heating a dwelling. | ||||||
| 35 | Halogen water heater | US12877751 | 2010-09-08 | US08687951B2 | 2014-04-01 | Patrick F. Servidio |
| A fluid heating apparatus includes a housing containing a flattened tube and lamps. The apparatus further includes a first conduit flow-coupled to the flattened tube, the first conduit being adapted to provide fluid to the flattened tube. The apparatus further includes a second conduit flow-coupled to the flattened tube, the second conduit being adapted to channel fluid from the flattened tube. The lamps are arranged to irradiate the flattened tube, and the flattened tube is adapted to absorb radiation from the lamps and heat fluid contained therein. | ||||||
| 36 | Infrared Water Heater | US13460059 | 2012-04-30 | US20120275775A1 | 2012-11-01 | Zoran Iskrenovic |
| Water heaters are disclosed having first and second fluid conduits, where the second fluid conduit is fluidly coupled to and disposed about at least a portion of the first conduit. One or more heating device, and preferably an infrared light source, can be disposed between the first and second conduits, such that water flowing within the conduits can be heated by the heating device. | ||||||
| 37 | HYBRID HEATING APPARATUS | US13310649 | 2011-12-02 | US20120145693A1 | 2012-06-14 | David Deng |
| A heating apparatus can be a dual heating power source or a hybrid heater. For example, the heating apparatus can include a fuel delivery system for combusting a gas fuel and a separate electronic heater. Other types of heating sources or methods can also be used to provide the heating apparatus with more than one heating source and/or heating method. The heating apparatus can also include one or more air flow channel to facilitate efficient heating of air flow through the heating apparatus. | ||||||
| 38 | Liquid Heating Unit, Liquid Processing Apparatus Including the Same, and Liquid Processing Method | US13217080 | 2011-08-24 | US20120063754A1 | 2012-03-15 | Toshihiko Nishida; Kazuyoshi Eshima; Hisakazu Nakayama |
| Disclosed are a liquid heating unit capable of monitoring the temperature of the liquid storage tank or pipe in which liquid is heated by permeation of the radiated light, a liquid processing apparatus including the same, and a liquid processing method. The liquid heating unit includes: a lamp heater radiating light; a cylindrical member having a cylindrical shape made of material permeating the radiated light configured to insert and penetrate the lamp heater into an internal space; a liquid conduction part placed along an outer periphery of the cylindrical member and configured to heat liquid flowing therein by using the radiated light; a reflection plate covering the liquid conduction part from the outside and reflecting the radiated light; and a first temperature sensor attached to an outer surface of the reflection plate. | ||||||
| 39 | Halogen Water Heater | US12877751 | 2010-09-08 | US20110058797A1 | 2011-03-10 | Patrick F. Servidio |
| A fluid heating apparatus includes a housing containing a flattened tube and lamps. The apparatus further includes a first conduit flow-coupled to the flattened tube, the first conduit being adapted to provide fluid to the flattened tube. The apparatus further includes a second conduit flow-coupled to the flattened tube, the second conduit being adapted to channel fluid from the flattened tube. The lamps are arranged to irradiate the flattened tube, and the flattened tube is adapted to absorb radiation from the lamps and heat fluid contained therein. | ||||||
| 40 | Heating device | EP15151236.5 | 2015-01-15 | EP3045836B1 | 2019-05-22 | Giannoulis, Stylianos |
| The application discloses a heating device comprising: a housing having an opening and surrounding an interior space, a fan arranged in proximity to the housing, a heating element arranged in the housing, and a heat distribution element arranged in the housing and in proximity to the heating element, wherein the heating element is adapted to generate heat, the heat distribution element is adapted to transfer the heat generated by the heating element to air in the interior space, and the fan is adapted to provide a flow of air through the interior space of the housing such that the air is heated and the heated air leaves the housing through the opening. | ||||||
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