| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | 闭合磁路感应加热器 | CN201610021991.0 | 2016-01-14 | CN105485891A | 2016-04-13 | 朱筱杰 |
| 本发明提供了一种闭合磁路的感应加热器,其加热部分的容器或水管构成闭合磁路,通过磁场感应方式在容器或水管中形成涡流发热,从而对其中的水、油等液体进行加热。与传统的电热器相比,它具有如下优势:1、通过磁场实现了真正液电隔离,安全性很高;2、加热面积大,加热表面功率密度小、温度低,对油的分解等破坏作用小,对水的水垢生成少;3、容器或水管自身直接发热,加热延迟小,易于进行温度控制;4、磁路是闭合的,对外辐射少,效率高。工业上可广泛用于各种油、水、酸碱、化工原料等液体的加热,也可用于气体加热。民用上可广泛用于各种即热式、储水式等电热水器、开水器的制作。 | ||||||
| 82 | 一种智能电磁导热油锅炉系统 | CN201510823683.5 | 2015-11-24 | CN105423551A | 2016-03-23 | 黄和炉; 张栽烨 |
| 一种智能电磁导热油锅炉系统,包括电磁能加热装置、智能控制模块、温度、压力、数字传感器等电子部件、供热循环系统、膨胀槽、储热罐电气控制柜、导热油的进出口管道。其特征在于:高效电磁加热技术与数字化传感器智能控制技术融合为一体,社会效益和经济效益显著,是各种传统燃油、燃气、电热导热油锅炉的理想换代产品。 广泛使用在石化、纺织、印染、塑料、橡胶、食品加工、木材加工、沥青加热、纸箱生产、蔬菜脱水、烤漆、铸造砂模等行业的烘干、烘焙、蒸化、定型、溶融、干燥等场合使用。 | ||||||
| 83 | 用于电加热的装置 | CN201380020337.2 | 2013-04-12 | CN104471320A | 2015-03-25 | 米夏埃尔·科尔; 哈里·潘克拉茨; 拉尔夫·特拉普 |
| 本发明涉及一种用于电加热流体的装置,其尤其应用在电驱动的机动车中,其具有感应线圈(2)和至少一个第一感应器(12),该感应线圈集成在振荡回路(3)中并且产生交变磁场(1),该感应器定位在交变磁场(1)的内部,其特征在于,感应器(12)设置在模块(19)的内部,该模块能够供待加热的流体穿流,其中该感应线圈(2)设置在模块(19)的外部。 | ||||||
| 84 | 心脏式循环装置 | CN201210144484.8 | 2012-05-11 | CN102652634B | 2014-02-05 | 赵亨来 |
| 本发明提供了一种心脏式循环装置,包括动力系统、盖板、弹力板、压紧圈、进水口、单向阀A、自压式储液罐、单向阀B、出水口、管路;其中弹力板设置在动力系统之上,压紧圈设置在弹力板底面整个周边,压紧圈、弹力板及盖板自下而上依次固定连接;进水口和出水口分别通过盖板通向盖板和弹力板之间;进水口、单向阀A、自压式储液罐、单向阀B、出水口通过管路依次连接,其中单向阀A的方向为流体流向盖板,单向阀B的方向为流体流出盖板;整个管路与水箱连通的空间内充满液体;其优点在于它结构简单、无噪音、无渗漏、维修率低、节能环保、绿色高效。 | ||||||
| 85 | 一种电磁加热装置及电磁供热设备 | CN201310274646.4 | 2013-07-02 | CN103354678A | 2013-10-16 | 李民华 |
| 本发明涉及一种电磁加热装置,包括正负电极、电磁控制器、电磁线圈、隔热绝缘垫层、铁制方管、导热鳍片;所述导热鳍片嵌在所述铁制方管内,所述隔热绝缘垫层包裹在所述铁制方管外,所述电磁线圈缠绕在所述隔热绝缘垫层外;所述导热鳍片上设有数排弯折片;所述铁制方管由4块矩形铁板组成,第一铁板与第二铁板相对,第三铁板与第四铁板相对,至少有两块相对的铁板上开有多排卡孔;所述导热鳍片与所述铁板嵌合的边缘为凹凸边,所述凹凸边由凸出部和凹陷部组成,所述凸出部嵌在所述卡孔中。本发明电磁加热装置的导热鳍片上设有弯折片,能够增加流体与导热鳍片的碰撞次数,增加热交换的时间,提高输出流体的温度。 | ||||||
| 86 | 心脏式循环装置 | CN201210144484.8 | 2012-05-11 | CN102652634A | 2012-09-05 | 赵亨来 |
| 本发明提供了一种心脏式循环装置,包括动力系统、盖板、弹力板、压紧圈、进水口、单向阀A、自压式储液罐、单向阀B、出水口、管路;其中弹力板设置在动力系统之上,压紧圈设置在弹力板底面整个周边,压紧圈、弹力板及盖板自下而上依次固定连接;进水口和出水口分别通过盖板通向盖板和弹力板之间;进水口、单向阀A、自压式储液罐、单向阀B、出水口通过管路依次连接,其中单向阀A的方向为流体流向盖板,单向阀B的方向为流体流出盖板;整个管路与水箱连通的空间内充满液体;其优点在于它结构简单、无噪音、无渗漏、维修率低、节能环保、绿色高效。 | ||||||
| 87 | 加熱装置 | JP2016520478 | 2014-06-18 | JP6391683B2 | 2018-09-19 | ラーズ ヒーパー; カルシュテン マルクアス; ディルク ナーゲル; マティアス シュタライン; ミカエル シュタインカンプ |
| 88 | 空調装置用送風ユニット | JP2014031515 | 2014-02-21 | JP6349102B2 | 2018-06-27 | 齋藤 隆; 高岡 彰; 伊藤 功治; 山岡 潤 |
| 89 | 心臓式循環装置 | JP2015510628 | 2013-05-10 | JP2015518932A | 2015-07-06 | ヘンライ ジャオ, |
| 本発明は、動力システムと、蓋板16と、前記動力システムの上に設けられる弾性板5と、前記弾性板5の底面の周囲全体に設けられる押圧リング6と、流入口13と、逆止弁A9と、自己与圧式液体貯蔵タンク12と、逆止弁B10と、流出口11と管路17とを備えており、押圧リング6、弾性板5及び蓋板16が下から上へ順番に固定連結され、流入口13及び流出口11が蓋板16を通して蓋板16と弾性板5との間に連通され、流入口13と、流体の蓋板16への流入を許す逆止弁A9と、自己与圧式液体貯蔵タンク12と、流体の蓋板16からの流出を許す逆止弁B10と、流出口13とが管路17を介して順番に接続される心臓式循環装置を提供する。前記管路17全体の自己与圧式液体貯蔵タンク12と連通される空間内に液体が充填されている。該装置は、簡単な構造により、ノイズ無し、液漏れ無し、低故障率、省エネルギーによる環境保護、エコ効果、高効率などを実現する。【選択図】図5 | ||||||
| 90 | INDUCTION COIL ASSEMBLY FOR AN INDUCTION COOKING HOB | US15744943 | 2016-07-12 | US20180213613A1 | 2018-07-26 | Daniel MATULLA; Holger WUNDLING; Ulrich HÄUTLE; Dieter FÖRSTER |
| The present invention relates to an induction coil assembly (10) for an induction cooking hob. The induction coil assembly (10) comprises at least one coil winding (15), at least one lower electrically isolating sheet (14) and optionally at least one thermally insulating sheet (16). The coil winding (15) is dedicated to one lower electrically isolating sheet (14) and one thermally insulating sheet (16). The coil winding (15) is arranged above the dedicated lower electrically isolating sheet (14), while the thermally insulating sheet (16) is arranged above the dedicated coil winding (15). The induction coil assembly (10) comprises a carrier plate (12) provided for supporting the lower electrically isolating sheet (14), the coil winding (15) and the thermally insulating sheet (16). The carrier plate (12) is made of a metal sheet, preferably an aluminium sheet, or of a plastic sheet. The induction coil assembly (10) comprises at least two power cables (30) for each coil winding (15) connected to the dedicated coil winding (15) on the one hand and connectable or connected to a power supply unit of the induction cooking hob on the other hand. The induction coil assembly (10) is installable or installed within the induction cooking hob and between a coil carrier (28) and a glass ceramic panel of said induction cooking hob. The power cables (30) are at least partially arranged at a bottom side of the carrier plate (12) and act as spring elements, so that the induction coil assembly (10) can be pressed or is pressed against the glass ceramic panel of the induction cooking hob. | ||||||
| 91 | Modular induction fluid heater | US14518131 | 2014-10-20 | US09924565B2 | 2018-03-20 | Michael Kohl; Harri Pankratz; Ralph Trapp |
| A device for electrically heating a fluid, in particular for use in an electrically operated motor vehicle, comprising an induction coil, which is integrated in an oscillating circuit and produces an alternating magnetic field, and at least one first inductor, which is positioned within the alternating magnetic field. The inductor can be arranged inside a module, through which a fluid to be heated can flow, and the induction coil is arranged outside the module. | ||||||
| 92 | Heat exchanger device and heater | US14306466 | 2014-06-17 | US09743464B2 | 2017-08-22 | Wolfgang Seewald; Karl-Gerd Krumbach; Michael Kohl |
| A heat exchanger device for a heater a motor vehicle, having a housing with at least one fluid channel disposed therein, with a fluid inlet and a fluid outlet, an element generating an alternating magnetic field, and at least one, preferably metallic, flat heating element around which a fluid can flow on one or both sides, whereby at least one further flat heating element is provided, which is configured to divide the at least one fluid channel into subchannels. A heater with a heat exchanger device is also provided. | ||||||
| 93 | FLUID HEATING DEVICE OF ENGINE | US15366723 | 2016-12-01 | US20170208651A1 | 2017-07-20 | Kazunari TSUJINO; Yasuo FUJII; Mikio ISHIDA; Kouji HORIKIRI; Katsushi INOUE |
| A fluid heating device of an engine is provided that is capable of reducing power consumption of a heat source required for heating a fluid. The fluid heating device of the engine includes a heat radiation pipe through which a fluid passes and an induction heating coil. Heat of the heat radiation pipe that is inductively heated by the induction heating coil is radiated to the fluid. A whole periphery of the heat radiation pipe is surrounded by the induction heating coil. The induction heating coil is supported by the heat radiation pipe. A holder is included, and the induction heating coil is supported by the heat radiation pipe via the holder. The holder, to which the induction heating coil is attached, is detachably supported by the heat radiation pipe. | ||||||
| 94 | Method for Managing the Heating of Water in a Tank of a Water Heater | US14910959 | 2014-07-31 | US20160187027A1 | 2016-06-30 | Jean-Yves Gaspard |
| The invention relates to a method for managing the heating of water in a tank of a water heater which comprises a device for electrically heating the water in the tank, characterized in that it comprises, when a water heating phase is actuated: activation of heating by the heating device, determination of a variation of the temperature in the tank over time and determination of at least one water filling state in the tank according to the variation over time. | ||||||
| 95 | Heating device | US14899209 | 2014-06-18 | US20160150598A1 | 2016-05-26 | Lars HEEPER; Karsten MARQUAS; Dirk NAGEL; Matthias STALLEIN; Michael STEINKAMP |
| The invention relates to a heating device, comprising a housing, which has a fluid channel arranged therein, which has a fluid inlet and a fluid outlet, wherein an element that generates an alternating magnetic field is provided in the housing, which element is separated from the fluid channel in a sealed manner by at least one wall, wherein furthermore at least one metal planar heating element is provided, which can be heated by the alternating magnetic field, wherein the at least one planar heating element is arranged in the fluid channel, wherein at least one of the planar heating elements is made of a magnetic material. | ||||||
| 96 | 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. | ||||||
| 97 | MAGNETIC AIR HEATING AND IMPELLING APPARATUS | US12768910 | 2010-04-28 | US20110268430A1 | 2011-11-03 | GEORGE WALDNER |
| An apparatus for heating and impelling air comprises a housing, an air heating impeller assembly, and a magnetic assembly. The impeller assembly may impel air through the housing and heat the air, and may include a support shaft, a plurality of annular disks positioned along the support shaft and each having a central aperture through which the support shaft extends. The impeller assembly includes paddles radiating outwardly from the shaft, and each of the paddles is positioned between the shaft and the disks to space at least one disk from the support shaft to form an air path therebetween. The paddles space the disks in an axial direction to form gaps therebetween to form an air path between the disks. The magnetic assembly applies a magnetic field of adjustable intensity to the disks to cause heating of the disks. | ||||||
| 98 | SUPERHEATED STEAM GENERATOR AND MAINTENANCE METHOD THEREFOR | US16208079 | 2018-12-03 | US20190195531A1 | 2019-06-27 | Toru Tonomura; Yasuhiro Fujimoto; Takatsugu Kitano; Masayoshi Kimura |
| The present invention is intended to inform a user of a maintenance timing for a superheated steam generator. The present invention includes an induction heating type or electrically heating type superheated steam generation section and an informing section. The superheated steam generation section generates superheated steam by heating steam. The informing section transmits maintenance information by employing, as a parameter, an operating temperature of the superheated steam generation section and an operating time at the operating temperature. | ||||||
| 99 | Methods and Systems for Heating Water with In-Line Magnetic Induction | US15497605 | 2017-04-26 | US20170307255A1 | 2017-10-26 | Jeremy Spring; Stephen Spring, JR. |
| An apparatus, method, and device for heating water using in-line magnetic induction. The heating system utilizes eddy currents created via one or more magnetic fields acting upon a stationary ferrous core. The device can be housed within an enclosure, which can in turn be connected to any existing water line, and can be connected to basic house voltage. During operation, cold water enters the enclosure, passes through the system, and leaves the system at a desired temperature setpoint greater than the initial inlet water temperature. | ||||||
| 100 | Separator Device Applicable to Manual Ceramic Cutters | US15440259 | 2017-02-23 | US20170266844A1 | 2017-09-21 | Miguel Angel SARMIENTO |
| Separator device applicable to manual ceramic cutters, which comprises: a tilting lever (2) and an actuation cam (3) provided with a cam profile (3) with a non-uniform variation in its radius of curvature and that provides a variable relationship between the rotation of the cam and the movement of the first end of the tilting lever, depending on the rotational position of the cam, in such a way that:—when the cam (3) rotates (β1) with a certain amplitude in an initial segment of its path, the first end of the tilting lever (2) completes a movement (d1) of a certain length; and—when the cam rotates (β2), with the same amplitude as β1, but in the final segment of its path, the first end of the tilting lever (2) completes a movement (d2) that is longer than the movement (d1). | ||||||
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