| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | Induction-heating Device of a Water Heater and Water Heater Provided with such a Device | US14421733 | 2013-08-05 | US20150233604A1 | 2015-08-20 | Jean-Yves Gaspard |
| The present invention relates to an induction-heating device of a water heater and a water heater provided with such a device. The water heater comprises a power generator and an inductive module formed by the at least one inductor and the at least one load, the at least one inductor being configured such as to generate an induced current in the at least one load, the inductor and the at least one load being submerged in the volume of water to be heated. The invention can be used in the field of household or professional water heaters. | ||||||
| 42 | ELECTRICAL MODULE | US11611770 | 2006-12-15 | US20070184711A1 | 2007-08-09 | Guy Thrap; Ray Soliz; Jeffrey Johnstone; Steven Stanley |
| It is desirable to be able to securely connect individual electrical components within an electrical module. An electrical module is provided in which a plurality of energy storage components are connected together using a clamp instead of wiring or bus bar connections. In one configuration, for example, a first energy storage component comprising a first terminal and second terminal is connected to a second energy storage component comprising a third terminal and a fourth terminal. The first terminal of the first energy storage component is electrically connected to a third terminal of the second energy storage component using a clamp comprising a recess. The recess of the clamp receives at least a portion of the first terminal of the first energy storage component and at least a portion of the third terminal of the second energy storage component. The clamp electrically connects the first terminal of the first energy storage component and the third terminal of the second energy storage component and secures the first energy storage component and the second energy storage component in a generally in-line configuration. | ||||||
| 43 | Electric heating unit housed in a calorie accumulator block | US10486195 | 2004-02-12 | US20040178189A1 | 2004-09-16 | Bernard Peyronny |
| The invention relates to an electric heating unit which is housed in a calorie accumulator block. The invention comprises an accumulator block (2) which is made from light alloy, cast iron, ceramic or another material. Said block houses a flat resistor (1) which is disposed between two high-temperature insulating sheets (6, 7) and which comprises a dished resistive plate or a tape wound on a flat insulating support. In general terms, the invention relates to the industrial and commercial field for the production and distribution of basic and auxiliary heating devices that are intended for all types of locations, such as dwellings, houses, offices, shops and other private or professional locations. | ||||||
| 44 | Heater and heating installation | US43464 | 1998-03-18 | US6058246A | 2000-05-02 | Franz Stefan Werner; Franz Lackner |
| The proposal is for a heater consisting of a container with connections for a heating agent circuit for the circulation of a heat conveying medium, in which the container (50, 59) through which the heat conveying medium is to flow is thermally connected to at least one heat store fitted in the heater and preferably in which the container (50, 59) is at least partially fitted in another container (51) of heat-conducting material which can be filled with a heat storage fluid, where the two containers are not in mutual fluid communication and/or the container (50,59) through which the heat conveying medium flows is at least partly adjacent to a solid heat storage core (20). The invention also relates to a heating installation with heaters of the invention making use of solar power. | ||||||
| 45 | Under floor heating system of a heat accumulating type and a method for storing thermal energy | US526882 | 1995-09-12 | US5811758A | 1998-09-22 | Young Taik Choi |
| A heat accumulating type heating system and a heat energy storing method therefor which include improvements for heat accumulating, heat storage, heat preservation and use of heat by transferring electric power energy into heat energy in order to obtain an improvement for heating effects of the heating system, saving heat energy, and making a comfortable housing environment. The system has panels defining cavities thereon. Each panel is made of a sample heat accumulating material, and has a low heat conductivity (for example, in concrete or stone materials, 0.002KCalS.sup.-1 Cm.sup.-1 (.degree.C.)). Steam produced by heating water contained in the panel in the initial use is removed through a vent, and heat diffusion and convention in the airtight cavities are smoothly, efficiently achieved. Heat can be generated at night and stored. Stay-on hours of the heater for production of heat energy are reduced and horizontal heat conductance is rapidly diffused by the high heat conductivity of the metal plate molds of the panels. Lower surfaces of each of the metal plate molds for the panels are formed with curved surfaces, which radiate and diffusely reflect heat while diffusion and convection for the radiant heat are obtained. | ||||||
| 46 | Heat accumulator | US149078 | 1988-01-27 | US4850424A | 1989-07-25 | Akio Mitani; Koji Kashima; Hiroichi Yamaguchi |
| A heat accumulator includes a heat storage tank and a latent heat accumulating material which fills the tank. The heat accumulating material remains in a stable supercooled condition at temperatures lower than a predetermined phase transformation temperature, and is released from the supercooled condition by a releasing device. The releasing device includes a holding member, which is mounted on the storage tank such that it is capable of touching the accumulating material and which holds a seed material. A driving mechanism drives the holding member so that the seed material comes into contact with the heat accmulating material for a predetermined period of time, releasing the latter from its supercooled condition. | ||||||
| 47 | Energy storage element and method of making same | US342395 | 1982-01-25 | US4397962A | 1983-08-09 | R. Schockmel |
| An energy-storage element, i.e. a body of high heat capacity capable of storing thermal energy and especially electrothermal energy, consists of 50-95% magnesium oxide, 5-50% iron oxide and a chemical binder, the mean particle size of the magnesium oxide lying between 0.1 and 4 mm and that of the iron oxide below 0.5 mm, preferably between 0.01 and 0.2 mm. | ||||||
| 48 | Building plates with controllable heat insulation | US33577373 | 1973-02-26 | US3920953A | 1975-11-18 | LAING NIKOLAUS; LAING INGEBORG |
| Building plate with controllable heat insulation means comprising two walls which may be moved relatively towards or away from each other by inflatable ducts between the walls to control transfer of heat therebetween when the walls face zones of different temperatures.
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| 49 | Portable gas heater | US34044773 | 1973-03-12 | US3846616A | 1974-11-05 | BECK J |
| A portable electrically operated gas heater for heating gases for use in curing sand molds. An electrical heating element fits tightly inside a bore in a heat exchange tube having sufficient mass for providing a reservoir for storage of a substantial amount of heat. The heat exchange tube is provided with fins on its outside and an inner shell fits around the fins to define a gas heating passage. An insulative outer shell is secured to the outside of the inner shell. An inlet port to the passage is provided for receiving cold gas from a pressurized source through a control valve and an outlet port from the passage is provided for distributing the gas after contact with the heat exchange fins in the passage. An automatic reset timer is connected to the control valve and is operative to open the valve for a predetermined period of time to deliver a burst of gas. Heater control means including a thermostat is provided for controlling the energization of the heating element to maintain a predetermined tempertaure within the gas heating passage. The heater control means is operable independently of the timer for continual energization of the heating element, under control of the thermostat, to store heat in the reservoir prior to delivery of a burst of gas by the timer. This storage of heat permits the use of a lower wattage heating element than would otherwise be necessary in order to instantaneously heat the burst of gas.
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| 50 | Temperature conditioning means | US33577173 | 1973-02-26 | US3785365A | 1974-01-15 | LAING I; LAING N |
| A temperature conditioning device for controlling temperature in a room where said device has a heat source wall, a heat sink wall, and a chamber between the walls adapted to be filled with a saturated vapor of a low boiling point heat carrier whereby the vapor of the condensate serves to transfer heat between the walls. A temperature responsive condensate control valve may be included to control flow of condensate of the heat carrier from one wall on which it may condense to the other wall on which it vaporizes such that the valve serves to regulate transfer of heat between the walls. A method of charging a temperature conditioning device with a low boiling point heat carrier which includes cooling the device, evacuating a chamber in the device, and then injecting in liquid form a low boiling point heat carrier into the chamber.
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| 51 | Storage container for night storage air heater | US3743782D | 1970-10-28 | US3743782A | 1973-07-03 | LAING N |
| crystallization, a plurality of air channels through which ambient air may flow formed in part by said panel, and an electrical resistance element for heating said material during periods of low tariff, characterized in that said heater is in the form of a sheet, in that said panel has a plurality of depressions formed thereon where said depressions extend in the direction and form on one side of the panel a part of said air channels and on the other side of the panel a part of said chambers with the chambers alternating with the air passages, and in that the panel has a flat flanged strip extending along two sides thereof sealingly connected to said oppositely disposed wall member.
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| 52 | Heat storage apparatus | US3624356D | 1970-05-04 | US3624356A | 1971-11-30 | HAVILL CHARLES DEWEY |
| Heat storage apparatus comprising an insulated box containing a thermal energy storage body consisting essentially of a material selected from the group comprising carbon, magnesium oxide and mixtures thereof which may be in block form, sintered form and powdered form is disclosed. Means for heating the heat storage body and heat exchange means for transporting heat energy to an appropriate power system are described. Embodiments of the invention for operation at different temperatures are disclosed.
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| 53 | Method for producing a heat storage composition and use thereof | US3470865D | 1966-11-21 | US3470865A | 1969-10-07 | MEKJEAN MATTHEW |
| 54 | 蓄熱装置 | JP2015502310 | 2013-03-26 | JP6254143B2 | 2017-12-27 | マクドナルド アラン |
| 55 | マイクロ波によって誘発される準瞬間的サーモヒーター | JP2015535069 | 2012-10-03 | JP6085896B2 | 2017-03-01 | コレラ ヒダルゴ,ディエゴ ホセ |
| 56 | JPH07509773A - | JP50502694 | 1993-08-06 | JPH07509773A | 1995-10-26 | |
| 57 | JPH0550653B2 - | JP21545384 | 1984-10-15 | JPH0550653B2 | 1993-07-29 | ISHII KAZUNORI; WADA TAKAHIRO; ISHII TAKAHITO |
| 58 | Method of room heating by utilizing mid-night electric power and device thereof | JP3732685 | 1985-02-26 | JPS61197921A | 1986-09-02 | IWAI TATSU; TAKENO SADAMASA; EBARA KENJI; NARUSE KOICHI |
| PURPOSE:To provide a room heating which does not occupy the living room space by sealing a heat accumulating material in the inside of walls, floors, pillars or on the ceiling or by installing a panel in which a heat accumulating material is sealed. CONSTITUTION:A heat accumulating material 3 that has the property to be supercooled is sealed in the inside of a building material or a panel. A plate 1 (a material of high heat conductivity such as a metal plate) that is not heat insulating is used as a material for at least the faces of the building material and panel that face the living room space. For the material to accumulate heat a material that has melting point over 50 deg.C in the process of temperature rise and has supercooling property with freezing point below the room temperature in the process of cooling by itself. After this heat accumulating material is heated over its melting point by an electric heater 4, using night electric power, it is left in molten state and left to cool to the room temperature. When room heating is required, the heat accumulating material in molten state is solidified by giving local shearing stresses. This heat accumulating material is preferably sodium acetate tri-hydrate dispersed in xanthen rubber. Discharge of latent heat is started by operating a trigger device 5. | ||||||
| 59 | Heat accumulating device | JP21545384 | 1984-10-15 | JPS6193318A | 1986-05-12 | ISHII KAZUNORI; WADA TAKAHIRO; ISHII TAKAHITO |
| PURPOSE:To provide a heat accumulating device to be applied to a heating equipment etc. which is superior in its use, safe and has a high reliability by a method wherein a heating area has a degree of freedom. CONSTITUTION:Containers 7 having heat accumulators 6 of latent heat are arranged at the upper and lower surfaces of the radiation plate 5 containing aluminum having a high thermal conductivity and a temperature sensor 8 is arranged near the containers 7. At the opposite surface of the radiation plate 5 in the container 7 are arranged heating lines 10 fixed to the core 9. A projected area of the container 7 storing the thermal accumulator 6 is made smaller than that of the thermal radiation plate 5, thereby the thermal radiation are of the radiation plate 5 applied for taking heat can be freely increased or decreased without having any relation with the area of the thermal accumulator 6, resulting in making a quite convenient device. A resiliency characteristic or flexibility is applied to the thermal radiation plate 5, the plate is bent or folded when the thermal accumulation is required, a time for completing the thermal accumulation is made fast and the plate may be expanded or opened when used. | ||||||
| 60 | Heat accumulation type electric heater | JP9630683 | 1983-05-30 | JPS59221595A | 1984-12-13 | MATSUNAGA KOUJI; WADA TAKAHIRO; MATSUO YOSHIHIRO; NITSUTA KOUJI; HAYASHI TAKESHI |
| PURPOSE:To obtain a latent heat accumulation type electric heater used for a room heater or a heat insulator having high flexibility, high heat accumulation efficiency, light weight and reduced thickness by containing a flexible linear heater in a vessel for containing latent heat accumulation material formed of a flexible material. CONSTITUTION:Two polyethylene films are superposed, the ends of the films are thermally press-bonded to form a slender bag shape as a flexible flat vessel 2, a linear heater 1 is passed in the center of the vessel, one end 3 of the vessel 2 is thermally press-bonded to secure the heater 1. Then, a latent heat accumulation material 5 is filled from the other end 4 of the opened vessel 2. The material 5 contains aqueous salt of 3 sodium acetate which includes 1wt% of hydride salt of 10 overcool preventing agent of sodium pyrophosphate. After the material 5 is cooled and solidified, the top of the vessel 2 is thermally press-bonded and sealed to obtain an electric foot heater. It can be used as an electric vest or a cooking heat insulator by altering the shape of the vessel. | ||||||
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