| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种加热及烘烤装置 | CN201610245969.4 | 2016-04-20 | CN105674722A | 2016-06-15 | 康佩栋; 黄海松; 徐辉; 丁世林 |
| 本发明公开了一种加热及烘烤装置,包括加热炉,在加热炉装有加热管,加热管的输出端和吸入端通过输送管与烘烤室内的散热管连通,加热管、输送管和散热管构成封闭结构且在该封闭管道上安装驱动电机,本发明通过在加热炉和烘烤室之间设置有导热液流通的封闭装置,实现加热炉和烘烤室的相对独立,大大降低了加热炉和烘烤室之间的彼此风险,同时该装置也大大提高了热量的利用率,具有很好市场价值。 | ||||||
| 2 | Clay area heater | US3678919D | 1970-10-16 | US3678919A | 1972-07-25 | MARCHESI CARLO M |
| In combination with an underlying heating unit, an enlarged chamber defining housing incorporating peripheral walls having multiple rows of hollow outwardly extending projections which internally communicate with the chamber. The device is constructed of baked clay and capable of storing and radiating heat over extended periods of time.
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| 3 | DEVICE FOR TEMPERATURE CONTROL OF A ROOM | US13520223 | 2010-12-31 | US20130192793A1 | 2013-08-01 | Werner Guckert; Christian Kipfelsberger; Robert Michels; Siegfried Rauch |
| A device for tempering a room includes at least one component that forms a thermal accumulator and has a surface oriented towards the room. Tubes that are thermally coupled to the component can be traversed by a heating or cooling medium. The tubes are integrated into a panel that contains expanded graphite or is made of expanded graphite. The panel is in areal thermal contact with the surface of the component that faces towards the room. | ||||||
| 4 | Domestic heater | US45138021 | 1921-03-10 | US1383671A | 1921-07-05 | STETTNER JOSEPH H |
| 5 | COMFORT UNITS AND SYSTEMS, METHODS, AND DEVICES FOR USE THEREOF | US15735538 | 2016-06-11 | US20180120873A1 | 2018-05-03 | Reinhard K. RADERMACHER; Vikrant C. AUTE; Yunho HWANG; Jiazhen LING; Jelena SREBRIC; Jan MUEHLBAUER; Rohit DHUMANE; Yilin DU; Daniel Alejandro DALGO REYES; Nicholas W. MATTISE |
| Despite otherwise uncomfortable conditions in a surrounding environment, a customizable microenvironment can be created around a user to maintain a comfortable temperature and/or humidity level using a comfort unit. For example, the environment may be an office building where conditions are out of the comfortable range to save on energy or for other reasons, a factory/shop environment that is poorly conditioned, or an outdoor location with little to no conditioning. A sensing unit can monitor biometric and environmental data and can determine a comfort level of the user. The comfort unit can then dynamically respond to the determined comfort level and adjust the microenvironment to improve the user's comfort level. The comfort unit can follow the user as the user moves within the macro-environment, or can otherwise move within the macro-environment to achieve certain functions, such as recharging or spatial shifting of thermal load within the overall macro-environment. | ||||||
| 6 | Auxiliary heater device | US12592115 | 2009-11-19 | US20110011560A1 | 2011-01-20 | Terry Brian Bono |
| An auxiliary heater device is for use with a primary room heater, the primary heater having a heating element cycling between operational and non-operational phases. The heater device includes a body configured to be disposed at least generally proximal to the primary heater, the body being either formed of a thermal retentive material or containing a quantity of thermal retentive material. As such, heat generated by the primary device is absorbed by the retentive material and subsequently emitted by the retentive material into a room so that the auxiliary heater device emits heat when the primary device is in a non-operational phase to reduce temperature fluctuations within the room. Preferably, the body is formed as an elongated tube disposeable upon an upper surface of the primary heater and the thermal retentive material is a semi-solid or gel disposed within the body tube. | ||||||
| 7 | コンフォートユニット及びシステム、それらを用いる方法及び装置 | JP2017564415 | 2016-06-11 | JP2018524538A | 2018-08-30 | ラーダーマッハー ラインハート ケー.; アウテ ヴィクラント シー.; ファン ユンホ; リン ジアジェン; シュレブリック エレーナ; ミュールバウアー ジャン; デュマネ ロフィット; ドゥ イーリン; ダルゴ レイエス ダニエル アレハンドロ; マティス ニコラス ダブリュー. |
| 【課題】周囲の環境における不快な状況においても、コンフォートユニットを使用して、カスタマイズ可能なマイクロ環境を、ユーザの周囲に形成し、快適な温度及び/または湿度のレベルを維持する。 【解決手段】例えば、環境は、エネルギ節約あるいは他の目的のために快適な範囲を超えたオフィスビルディングや、空調が不十分な工場/店舗環境、あるいは空調が実質的に存在しないアウトドアロケーションである。感知ユニットは、バイオメトリック及び環境データを監視可能であり、ユーザの快適さのレベルを判別可能である。コンフォートユニットは、判別した快適さのレベルに動的に応答し、ユーザの快適さのレベルを改善するためにマイクロ環境を調整可能である。ユーザがマクロ環境内を移動する場合ユーザを追いかける、あるいはマクロ環境内を移動して、特定の機能、例えば全面的なマクロの環境内における熱負荷の再チャージあるいは空間的シフトを達成する。 【選択図】 図3B |
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| 8 | EINRICHTUNG ZUR TEMPERIERUNG EINES RAUMS | EP10803102 | 2010-12-31 | EP2519783B1 | 2017-06-21 | GUCKERT WERNER; KIPFELSBERGER CHRISTIAN; MICHELS ROBERT; RAUCH SIEGFRIED |
| 9 | HEIZKÖRPER | EP12701004.9 | 2012-01-26 | EP2678626A1 | 2014-01-01 | Ziegler, Klausdieter; Ziegler, Maximilian |
| The invention relates to a heating body (1) comprising a vessel (2) which is lined at least on an outer side (3) with ceramic (4), marble, stone or glass, wherein at least one wall (7) of the vessel (2) is formed as a heat exchanger (9) which can be connected to a circuit (17) of a heat carrier material. The vessel (2) defines an interior (11) which is filled with a phase change material (12), wherein the heat exchanger (9) projects into or extends through the phase change material (12). | ||||||
| 10 | Umweltkachelofen | EP96108890.3 | 1996-06-04 | EP0748985A2 | 1996-12-18 | Wegner, Ulrich |
Die Erfindung betrifft einen umweltfreundlichen Kachelofen, dessen Ofenkörper (1) wie bei einem konventionellen Kachelofen auf einem Sockel (so) mit umlaufender Bank (ba) aus Mantel (ma) und Sims (si) aufgebaut sein kann, wobei der Ofenkörper (1) aber erfindungsgemäß wenigstens eine feuerungsunabhängige, beheizbare Kachelplatte (2) aufweist; daneben betrifft die Erfindung für den Bau eines solchen Kachelofens besonders geeignete Kachelplatten (2). |
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| 11 | 수관부의 직경 변경에 의한 유속, 유량의 변화를 유도한시설농업용 방열기 | KR2020000000222 | 2000-01-05 | KR200186490Y1 | 2000-06-15 | 구효회 |
| 본 고안은 농업시설재배용 방열기에 관한 것으로써 종래의 것은 직선금속관에 방열핀을 부착하여 사용하던 것을 온수의 잠열량을 더욱 높일수 있도록 개양한 고안이다. 즉, 종래의 방열기는 수관부의 굵기가 일정하여 방열핀이 부착된 부분의 온수 잡열을 더욱 높일수 없는 단점을 보완하기 위하여 방열핀 부위의 수관부를 도 2의 ③과 같이 관의 직경을 크게하여 온수의 흐름이 일시 지체토록 하여 관수량을 많게 하여 온수의 잠열량을 높여 방열핀의 방열량을 최대화 할 수 있도록 개선하였다. | ||||||
| 12 | HEIZVORRICHTUNG | EP18152554.4 | 2018-01-19 | EP3361180A1 | 2018-08-15 | Linser, Peter |
Heizvorrichtung (1) mit: |
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| 13 | EINRICHTUNG ZUR TEMPERIERUNG EINES RAUMS | EP10803102.2 | 2010-12-31 | EP2519783A1 | 2012-11-07 | GUCKERT, Werner; KIPFELSBERGER, Christian; MICHELS, Robert; RAUCH, Siegfried |
| A device for tempering a room includes at least one component that forms a thermal accumulator and has a surface oriented towards the room. Tubes that are thermally coupled to the component can be traversed by a heating or cooling medium. The tubes are integrated into a panel that contains expanded graphite or is made of expanded graphite. The panel is in areal thermal contact with the surface of the component that faces towards the room. | ||||||
| 14 | KACHELOFEN | EP10720584.1 | 2010-05-12 | EP2452131A2 | 2012-05-16 | Ziegler, Maximilian |
| The invention relates to a tile stove having a container (1) made of ceramic, marble, stone, or glass, or covered at least on the exterior thereof with ceramic, marble, stone, or glass. The container (1) defines an interior (Ia) filled with a phase-change material (2), such as paraffin. A heat exchanger (7) permeates the phase-change material (2), wherein the heat exchanger (7) and at least one solar collector (3) are disposed in a circuit (11) of a heat transfer material (10) that can be heated in the solar collector (3) and fed into the heat exchanger (7). | ||||||
| 15 | KLIMADECKE | EP10707445.2 | 2010-02-13 | EP2404117A1 | 2012-01-11 | BURKHARDT, Oliver; KOCH, Klaus, Paul |
| The invention relates to an air-handling ceiling, comprising a conduit through which a heat transfer medium can flow, a latent heat storage device and a heat exchange element with a heat exchange surface for exchange of thermal energy with the surroundings, wherein the conduit, the latent heat storage device and the heat exchange element are coupled for thermal interaction. In order to provide a more energy-efficient air-handling ceiling with improved thermal response behaviour, it is provided according to the invention that the conduit extends at least in certain portions within the heat exchange element. | ||||||
| 16 | 폐온수를 이용한 보일러장치 | KR1020080130194 | 2008-12-19 | KR1020100071464A | 2010-06-29 | 김광례 |
| PURPOSE: A boiler device using waste hot water is provided to enable a user to immediately use hot water by heating water through heat exchange between waste hot water and the water of hot water tank. CONSTITUTION: A boiler device using waste hot water comprises a waste hot water tank(10), a heat exchange tank(20), and a hot water tank(30). The waste hot water of the waste hot water tank circulates through a supply line(11) and a return line(12) to the heat exchange tank. The waste hot water is stored in the inner heat exchange chamber. The hot water tank is connected to a heat exchanging tube(25) through a supply line(31) and a return line(32). The heat exchanging tube passes through the heat exchange chamber in zigzag. | ||||||
| 17 | 간온 전기 온풍기 | KR2020080007970 | 2008-06-16 | KR2020090012952U | 2009-12-24 | 김대숙 |
| 본 고안은 간온 전기 온풍기에 관한 것이다. 본 고안은 간온 전기 온풍기에서 발생 되는 온풍을 이용하여 비닐하우스를 난방하고, 이를 다시 순환시켜 계속적으로 난방을 실시하게 되어 효율성이 우수하고, 또한 열교환기 후단에 가습기를 구비하여 공급되는 온풍으로 농작물이 마르게 되는 것을 방지하고, 온풍기의 케이싱 내,외부에 판형열교환기를 선택적으로 구비하여 지하수를 공급시켜 지하수의 자체 온도를 올려 겨울철에 농작물에 물을 주게 되어 농작물의 생장에 도움을 주게 되는 효과가 제공되고, 또한 비닐하우스에서 공급되는 온풍의 량을 수동으로 조절할 수 있어 양측의 토출팬을 통하여 토출되는 온풍을 조절할 수 있는 효과가 제공된다. 전기, 간온, 온풍기, 열교환, 순환 | ||||||
| 18 | 원적외선 보조난방기 | KR1020080012576 | 2008-02-12 | KR1020090087248A | 2009-08-17 | 조미애; 박영춘; 박인식 |
| A far infrared-ray auxiliary heater is provided to keep the indoor agreeable and to reduce the consumption of fossil fuel. A far infrared-ray auxiliary heater comprises a reservoir tub, a far-infrared ray irradiating member(3), and a tub cover(4). The reservoir tub comprises a storage tub inlet port(1), a steam exhausting part, and a drain. The hot water is provided through the storage tub inlet port to the reservoir tub inside. The steam exhausting part ejects the steam generated from the hot water. The far-infrared ray irradiating member radiates the far-infrared ray after absorbing the heat ejected from the reservoir tub upper side. The tub cover discharges the heat from the hot water as only the far-infrared ray irradiating member but to limits the other things. A heat insulator is formed inside of the tub cover. | ||||||
| 19 | 폐열을 이용한 온수가열장치 | KR1020070047638 | 2007-05-16 | KR100843628B1 | 2008-07-04 | 이기주; 김병호; 최세화 |
| An apparatus of heating water using waste heat is provided to maintain hot water tank in a desired temperature by using waste heat of coolant as heat exchange medium. An apparatus of heating water using waste heat comprises a heat exchange pipe(21), a hot water circulation pipe(22) and a heat exchanger(23). The heat exchange pipe is installed on a coolant pipe(16) before coolant is introduced to a cooling tower(14), in which the coolant carries heat of condensation obtained by passing through a water-cooled air conditioning system, so as to change flow of coolant. The hot water circulation pipe circulates hot water through pumping force. The heat exchanger is installed between the heat exchange pipe and the hot water circulation pipe. | ||||||
| 20 | THERMALLY ACTIVE BUILDING COMPONENT OR SET OF BUILDING COMPONENTS WITH THE ABILITY TO EXCHANGE THERMAL ENERGY | PCT/DK2010000115 | 2010-08-10 | WO2011018088A2 | 2011-02-17 | STOBBE PER |
| Active building parts are presented with thermal mass and conductivity integrating fluid passing channels, tubes or ducts for energy exchange. Each set of channels, tubes or ducts carry energy (warm or cold) for exchange from a technical installation created by another building part or a technical installation. The presented building part hereby becomes a giant heat exchanger and energy storage device. All with the purpose of increased building comfort at the lowest possible energy consumption and carbon foot print. The purpose being the elimination of expensive electricity driven heat pump based air conditioning systems for cooling or heating purposes in a building. The thermal mass of the energy transmitting building part supporting the multi layout heat exchanger performance of the energy transmitting building part and ensure constant and comfortable temperature in the building day and year round. | ||||||
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