子分类:
- H05B3/0004: .{其加热电流流过被加热材料的装置(电路图入 H05B3/0019; 零部件入H05B3/023, H05B3/03; 适于粒状、粉状或液体材料的入H05B3/60)}
- H05B3/0014: .{其加热电流通过特定电阻的装置}
- H05B3/0019: .{电路图}
- H05B3/0033: .{用灯的加热装置(放射治疗设备入A61N)}
- H05B3/0095: .{辊型加热装置(感应加热入h05b6/145)}
- H05B3/02: .零部件
- H05B3/10: .以材料的成分或性质为特征或者以导体的配置为特征的加热元件(成分本身见有关小类)
- H05B3/20: .基本上在一个二维平面内扩展表面积的加热元件,例如平板电热器(H05B3/62,H05B3/68,H05B3/78,H05B3/84优先)
- H05B3/40: .棒状或管状的加热元件(H05B3/62,H05B3/68,H05B3/78优先)
- H05B3/60: .其中加热电流流过颗粒状材料、粉末材料或流体材料的电热装置,例如,用于盐浴炉、电解加热的(H05B3/38优先)
- H05B3/62: .专门适用于炉子的电热元件(H05B3/60优先;炉子中或上的电热元件采用欧姆电阻加热配置的入F27,如F27D11/02)
- H05B3/68: .专门适用于烹饪烘烤板或类似加热板的加热装置
- H05B3/78: .专门适用于浸没式加热的加热装置
- H05B3/84: .专用于透明面或反射面的加热装置,例如用于对窗户、镜子或车辆风挡玻璃进行除雾或防止结冰的
| 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 | 用于煎熬中草药的加热罐 | CN99107233.2 | 1999-05-13 | CN1238175A | 1999-12-15 | 李相俊 |
| 一种用于煎熬中草药的加热罐包括:一装中草药的容器,一包括具有预留空间以防止与置于其中的容器相接触的保护体在内用于保护容器的加热器,一装在保护体和容器之间的用于产生高温射线的射线生成装置,以及一装在保护体内表面用来将射线反射向容器的主反射装置。 | ||||||
| 82 | 带有陶瓷加热器的吹风机 | CN98105400.5 | 1998-03-10 | CN1218649A | 1999-06-09 | 金润九; 李沃夏; 金泰闰 |
| 本文公开了一种带有陶瓷加热器的吹风机。该加热器用碳化硅(SiC)、铬酸镧(LaCrO3)、二氧化锆(ZrO2)一类的陶瓷材料做成。加热器做成网状并装在壳体内。.绝缘件设在加热器和壳体之间。本发明的吹风机加工过程简单,整体尺寸和总重量小。此外,还可防止过热,因而不会发生电热丝断开的问题。 | ||||||
| 83 | 按键结构及电子雾化器 | CN201621247628.2 | 2016-11-18 | CN206293313U | 2017-06-30 | 陈文 |
| 本实用新型公开一种按键结构及应用该按键结构的电子雾化器,其中,按键结构包括:支架;按键,所述按键连接于所述支架,并具有按动方向;及滑块,所述滑块沿垂直于所述按键的按动方向滑动连接于所述支架,所述滑块滑动而具有锁定位和解锁位;所述按键面对所述滑块的一侧设有第一锁定部,所述滑块设有与所述第一锁定部相配合的第二锁定部;所述滑块滑动至锁定位时,所述第一锁定部锁紧于第二锁定部,所述滑块滑动至解锁位时,所述第一锁定部解锁于第二锁定部。实用新型技术方案只需手动拨动滑块,即可实现对按键的锁定和解锁,保证按键在锁定状态下不会由于误操作而造成影响。 | ||||||
| 84 | THIN HEATED SUBSTRATE SUPPORT | PCT/US2012024524 | 2012-02-09 | WO2012118606A3 | 2012-10-26 | YOUSIF IMAD; SALINAS MARTIN JEFF; REUTER PAUL B; PAL ANIRUDDHA; LEE JARED AHMAD |
| Embodiments of the present invention provide an apparatus heating and supporting a substrate in a processing chamber. One embodiment of the present invention provides a substrate support assembly. The substrate support assembly includes a heated plate having a substrate supporting surface on a front side and a cantilever arm extending from a backside of the heated plate. The heated plate is configured to support and heat a substrate on the substrate supporting surface. The cantilever arm has a first end attached to the heated plate near a central axis of the heated plate, and a second end extending radially outwards from the central axis. | ||||||
| 85 | HEATING PLATE WITH PLANAR HEATER ZONES FOR SEMICONDUCTOR PROCESSING | PCT/US2010002794 | 2010-10-20 | WO2011049620A3 | 2011-11-03 | SINGH HARMEET; GAFF KEITH; BENJAMIN NEIL; COMENDANT KEITH |
| A heating plate for a substrate support assembly in a semiconductor plasma processing apparatus, comprises multiple independently controllable planar heater zones arranged in a scalable multiplexing layout, and electronics to independently control and power the planar heater zones. A substrate support assembly in which the heating plate is incorporated includes an electrostatic clamping electrode and a temperature controlled base plate. Methods for manufacturing the heating plate include bonding together ceramic or polymer sheets having planar heater zones, power supply lines, power return lines and vias. | ||||||
| 86 | METHODS AND STRUCTURES FOR REMOVING ICE FROM SURFACES | PCT/US9928330 | 1999-11-30 | WO0033614A9 | 2001-07-12 | PETRENKO VICTOR; SULLIVAN CHARLES |
| In one embodiment, a system for modifying ice adhesion strength of ice (102) adhered to an object (110). The system includes an electrode (114) that is electrically insulated from the object (110) and a DC source (116), e.g., a battery, coupled to the object (110) and the electrode (114). The source (116) generates a DC bias to an interface between the ice (102) and the object (110) when the ice (110) completes the circuit. The system preferably includes an electrically insulating material (118) disposed between the object (110) and the electrode (114). In another embodiment, a coating (306) comprising a ferroelectric, lossy dielectric, ferromagnetic or semiconductor material is applied to an object. Electromagnetic energy causes the coating to generate heat, which melts snow and ice. | ||||||
| 87 | GOLF BALL HEATER APPLIANCE | PCT/US0028416 | 2000-10-13 | WO0128639A3 | 2001-06-14 | ROCKENFELLER UWE; SARKISIAN PAUL |
| The hitting distance performance of a golf ball is improved by heating the ball to an average temperature of between 30 DEG C and 55 DEG C during an active heating period of 30 minutes or less followed by a temperature equilibration period of 20 minutes or less. A golf ball heating appliance for carrying out the process has an upper and lower receptacle for receiving a plurality of golf balls and includes an electrical heating element capable of delivering at least 2 watts, and preferably, 4 watts of power per ball during the active heating period. | ||||||
| 88 | TEMPERATURE CONTROL OF INCUBATION VESSELS USING ELECTRICALLY CONDUCTING POLYMERS | PCT/GB9901553 | 1999-05-17 | WO9961578A8 | 2001-05-03 | LEE MARTIN ALAN; LESLIE DARIO; MOORE PAUL |
| The use of incubation means for the controlled heating of biological materials, said means comprising an electrically conducting polymer connectable to a power supply, said polymer being either contiguous or integral with an incubation vessel, or adapted to be in thermal contact with an incubation vessel. Incubation apparatus including such means and a method for culturing biological materials using them are also described and claimed. | ||||||
| 89 | HEATING SYSTEM FOR A GARMENT OR OTHER FABRIC OBJECT AND POWER CONTROL FOR EMBEDDED POWERED COMPONENTS | PCT/IB2015002113 | 2015-10-02 | WO2016051278A3 | 2016-06-23 | STRECKER MARKUS |
| A heating system, such as embedded in a fabric object, such as a wearable garment, comprising at least one heating element comprising an electrical resistance heating loop, the heating element comprising at least one sense wire for detecting and providing a signal indicative of a safety condition, and a controller connected to the at least one heating element and to the sense wire and configured to shut down the heating element in response to the signal indicative of the safety condition. Multiple, independently controllable heating elements in a garment may be connected to a harness and one or more integral battery packs with a power management system to permit hot swapping of the battery packs. The garment may be configured to be communicatively paired to a mobile device to provide hands free phone, music streaming, and/or a user interface for the heating system. | ||||||
| 90 | MOLDED ASSEMBLY WITH HEATING ELEMENT CAPTURED THEREIN | PCT/US0111235 | 2001-04-06 | WO0178457A3 | 2002-02-21 | VON ARX THEODORE; LAKEN KEITH; SCHLESSELMAN JOHN W; PAPENFUSS RONALD E |
| A heated element assembly and method of manufacturing a heated element assembly is provided. The heated element assembly includes a first and second molded sections [150, 160] shaped to mate with each other. A resistance heating element [100] is secured between the first and second molded sections [150, 160] by an interference fit. The resistance heating element [100] includes a piercable supporting substrate [105] and a resistance wire [110] sewn thereon. The resistance wire [110] is disposed in a predetermined circuit path which is substantially encompassed by the first and second molded sections [150, 160]. The resistance heating element [100] is easily fixed in a position between the first and second molded sections [150, 160] and is capable of providing heat on vertical, horizontal and contoured surfaces. | ||||||
| 91 | FAIL SAFE DEVICE FOR INFANT-SUPPORT APPARATUS | PCT/US0112908 | 2001-04-20 | WO0180804A3 | 2002-01-24 | MCDONOUGH ROBERT M; RICHARDS JOHN H |
| An infant-support heater assembly (4) having a heater element (14) a radiator (22) associated with the heater element (4) and a sensing element (16) in contact with at least a portion of the radiator (22). The sensing element (16) is separate from the heater element (14). | ||||||
| 92 | FOOD TRANSPORT CONTAINER WITH INTEGRAL HEATER | PCT/US0004848 | 2000-02-25 | WO0050307A9 | 2001-06-28 | REMKE MATTHEW S; DAHLKE-BAUMAN JEANNE L |
| A heated container for transporting hot food, and having a wall formed of a heating element (22) sandwiched between two foil layers (21, 23), an exterior insulation layer (24), and a further foil layer (25) covering the insulation layer (24). | ||||||
| 93 | FOOD TRANSPORT CONTAINER WITH INTEGRAL HEATER | PCT/US0004848 | 2000-02-25 | WO0050307A2 | 2000-08-31 | REMKE MATTHEW S; DAHLKE-BAUMAN JEANNE L |
| A heated container for transport of prepared hot food is provided comprising a combination of an electric heating element with an insulation layer comprising metal foil layers and fiber layers. The combination of metal foil layers, which spread the heat from the heating element, and the fiber insulation layers provides an efficient food transport container having sufficiently low power requirements to enable powering the heater element from an automotive 12 volt system while maintaining a food temperature inside the container at about 150 DEG F. This construction of a food delivery container provides low cost and efficient manufacture of a container for home delivery or institutional delivery of prepared hot meals. | ||||||
| 94 | PIPE STAND INSTRUMENT HEATER AND MOUNTING SYSTEM | PCT/US9911371 | 1999-05-21 | WO9959394A3 | 2000-01-20 | CAMPBELL BRYAN; BARTH ROY E; HUFF GREG; ZABOROWSKI RON W; BONORDEN CHARLES; SCHLAMEUS DAVID |
| A pipe stand heater system (20) for heating an instrument (M) within an enclosure (30) supported by a pipe stand. The heater system includes a housing mounted to the pipe stand and a heater unit in the housing. A bracket (34) is provided for mounting the instrument (M) to the housing. The heater unit can be powered by electric, steam or other fluids. | ||||||
| 95 | ヒータ装置、およびヒータ装置の製造方法 | JP2017554977 | 2016-11-04 | JP6432695B2 | 2018-12-05 | 石川 公威; 加古 英章; 生出 裕康; 関 秀樹; 田中 祐介; 近藤 宏司; 多田 和夫; 井ノ口 正晃 |
| 96 | 加熱器、その使用およびこの加熱器を用いてイソシアネートを調製する方法 | JP2016572429 | 2014-06-16 | JP6402202B2 | 2018-10-10 | ユ,ヨン; シャン,ヨンファ; スン,ツォンピン; クェイ,シュエレイ; ワン,ピョン; リュ,ツェンガオ; ファ,ウェイチー |
| 97 | ヒータ制御装置、ヒータ制御方法、基板処理装置及び基板処理方法 | JP2016079112 | 2016-09-30 | JPWO2017057726A1 | 2018-08-30 | 木名瀬 淳; 松嶋 大輔 |
| 石英プレート50を加熱するヒータ80と、石英プレート50の温度を検出する熱電対60と、熱電対60から出力される温度情報値に基づいて石英プレート50の温度を目標温度値Txとするようにヒータ80を制御するヒータ制御部100において、熱電対60は石英プレート50に4つ設けられ、4つの熱電対60から温度情報値が入力され、入力された温度情報値群のうち、最小値の温度情報値を除いた残りの温度情報値を用いて代表温度値Tを求める前処理ユニット110と、代表温度値Tが目標温度値Txとなるようにヒータ80を制御するフィードバック制御部104とを有する。 | ||||||
| 98 | ヒータ装置 | JP2017027758 | 2017-02-17 | JP2018133289A | 2018-08-23 | 坂東 史朗 |
| 【課題】暖房性能を向上させることができるヒータ装置を提供する。 【解決手段】ヒータ装置は、複数のヒータ部121、122、123と、これらのそれぞれにおける表面121a、122a、123aへのユーザの接触を検出する複数の接触検出部141、142、143と、複数のヒータ部121、122、123のそれぞれへの供給電力量を制御するヒータ制御装置30とを備える。ヒータ制御装置30は、複数のヒータ部のうち一部のヒータ部121へのユーザの接触を対応する接触検出部141が検出した場合に、一部のヒータ部121への供給電力量を接触検出部141が一部のヒータ部121へのユーザの接触を検出していない場合よりも少なくする。これにより、ユーザの接触のあるヒータ部121のヒータ温度をユーザの接触の無いヒータ部122、123のヒータ温度よりも低くする。 【選択図】図3 |
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| 99 | 発熱体の製造方法とその発熱体及び使用方法 | JP2018504939 | 2016-07-08 | JP2018522384A | 2018-08-09 | キム、セ ヨン; キム、ドン ウ |
| 発熱体の製造方法とその発熱体及び使用方法に係り、詳しくは、高抵抗値を有する多数本の極細線を全体面積が互いに接触するようにする並列構造で合成させることにより、合成抵抗値は減らしながら、極細線それぞれは高抵抗値を有するため、発熱効率を向上させることができる、発熱体の製造方法とその発熱体及び使用方法に関する。その製造方法は、高抵抗値を有する極細線を単一金属または合金金属で作った後、前記極細線の多数本を互いに接触するように合わせて一つのバンドルに作って1本の熱線となるようにする。 【選択図】図1 |
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| 100 | 加熱部材の製造方法 | JP2016252223 | 2016-12-27 | JP2018106923A | 2018-07-05 | 丸山 勇; 河野 淳洋; 高木 和典; 竹山 可大; 飯沼 玲奈; 松下 祐子; 仲市 真吾 |
| 【課題】高精度の金属パターンを形成することが可能な加熱部材の製造方法を提供する。 【解決手段】被加熱体を加熱するための加熱部材10の製造方法であって、(a1)基層12上にめっき下地パターン14bを形成する工程、または(a2)基層12上に形成されためっき下地層24上にマスクパターン26を形成する工程と、(b)(a1)または(a2)の工程後にめっきを行って、めっき下地上に金属パターン14aを形成する工程と、を有する。 【選択図】図3 |
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