会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • MICROWAVE REACTIVATION SYSTEM FOR STANDARD AND EXPLOSION-PROOF DEHUMIDIFICATION
    • 用于标准和防爆除湿的微波反应系统
    • WO2012160408A1
    • 2012-11-29
    • PCT/IB2011/001503
    • 2011-05-26
    • 7734123 CANADA INCCAGGIANO, Mario
    • CAGGIANO, Mario
    • F24H3/06F24D13/00F24F3/14
    • F24D5/02F24F3/1423F24F2003/1464F24F2203/1032F24F2203/1068F24H3/081F24H2250/12
    • The present invention relates to dehumidification equipment and more specifically to a microwave reactivation system and new method of reactivation / regeneration of the desiccant dehumidification system and desiccant rotor for use in conventional desiccants as well as the explosion-proof dehumidification system used in hazardous locations and or applications. The dehumidification system incorporates a desiccant rotor assembly which is located in the cabinet and the rotor rotatively mounted inside this cabinet. The desiccant rotor core is impregnated with a desiccant type material. Mechanical means are provided for rotating the desiccant rotor within the cabinet. The Microwave System and method of reactivation is designed to provide an indirect, safe and energy efficient source of heat and temperature rise required in the reactivation section of the desiccant unit for the release into atmosphere of the water vapors which are accumulated in the desiccant rotor. This microwave reactivation system and method is based on heat transfer produced from a heated fluid which is pumped through a closed loop coil assembly. This closed loop coil assembly is located and runs through both the isolated heating chamber of the microwave section and the reactivation / regeneration section in the dehumidification system. The airstream passing through the reactivation intake section comes in contact with the coil assembly and is heated to the desired temperature prior to reaching the desiccant rotor. The desiccant dehumidification system which is comprised of a desiccant rotor assembly and the method of dehumidifying the air enclosed within a specific space is also described in this documentation.
    • 本发明涉及除湿设备,更具体地涉及微波再生系统和用于常规干燥剂的干燥剂除湿系统和干燥剂转子的再活化/再生的新方法以及在危险场所中使用的防爆除湿系统,或 应用。 除湿系统包含一个干燥剂转子组件,该组件位于机柜中,转子旋转安装在机柜内。 干燥剂转子芯浸渍有干燥剂型材料。 提供机械装置用于使柜内的干燥剂转子旋转。 微波系统和再活化方法被设计成提供在干燥剂单元的再活化部分中需要的间接,安全和能量高的热和温度上升的源,以释放到积聚在干燥剂转子中的水蒸汽的气氛中。 这种微波再生系统和方法是基于从泵送通过闭环线圈组件的加热流体产生的热传递。 该闭环线圈组件位于并穿过微波部分的隔离加热室和除湿系统中的再活化/再生部分。 通过再活化进气部分的气流与线圈组件接触并在到达干燥剂转子之前被加热到所需温度。 干燥剂除湿系统由干燥剂转子组件和在特定空间内封闭的空气除湿的方法也在本文档中描述。
    • 2. 发明申请
    • 피스톤 유체펌프 난방시스템
    • 活塞泵加热系统
    • WO2012115312A1
    • 2012-08-30
    • PCT/KR2011/005568
    • 2011-07-28
    • 김만수
    • 김만수
    • F24D3/02F04B39/02F04B17/03F24D19/08
    • F04B53/08F04B17/046F24D3/14F24D13/04F24H3/081
    • 본 발명은 피스톤 유체펌프 난방시스템에 관한 것으로서, 독립적으로 구획된 제1,2난방대상(C1)(C2) 각각에 매설된 제1,2난방호스(10)(15); 제1난방호스(10)와 연결된 제1,2매개호스(10a)(10b); 제2난방호스(15)와 연결된 제3,4매개호스(15a)(15b); 제1,2매개호스(10a)(10b)를 경유하는 열매체를 가열하기 위한 열매체가열부(20); 제3,4매개호스(15a)(15b)를 경유하는 열매체를 가열하기 위한 열매체가열부(20'); 제1,2매개호스(10a)(10b) 및 제3,4매개호스(15a)(15b)를 경유하는 열매체를 보충하기 위한 보충열매체저장부(30)(30'); 및 제1매개호스(10a)(10b)와 연결되어 열매체를 제1난방호스(10)와 열매체가열부(20) 사이에서 순환시키고, 제2매개호스(15a)(15b)와 연결되어 열매체를 제2난방호스(15)와 열매체가열부(20') 사이에서 순환시키는 것으로서, 실린더 내부에서 왕복이송되는 피스톤을 가지는 유체펌프;를 포함하는 것을 특징으로 한다.
    • 活塞泵加热系统技术领域本发明涉及一种活塞泵加热系统。 活塞泵加热系统包括分别安装在第一和第二加热对象(C1)(C2)中的第一和第二加热软管(10)(15) 连接到第一加热软管(10)的第一和第二介质软管(10a)(10b); 连接到第二加热软管(15)的第三和第四介质软管(15a)(15b); 用于加热通过第一和第二介质软管(10a)(10b)的热介质的热介质加热单元(20); 用于加热通过第三和第四介质软管(15a)(15b)的热介质的热介质加热单元(20'); 用于补充通过第一和第二介质软管(10a)(10b)和第三和第四介质软管(15a)(15b)的热介质的补充热介质存储单元(30)(30'); 以及流体泵,用于在第一加热软管(10)和与第一介质软管(10a)(10b)连接的热介质加热单元(20)之间循环热介质,并在第二加热软管 (15)和连接到第二介质软管(15a)(15b)的热介质加热单元(20'),以便在气缸中提供往复活塞。
    • 5. 发明申请
    • VORRICHTUNG ZUR ELEKTRISCHEN BEHEIZUNG EINES SENKRECHT STEHENDEN RAUMES
    • 装置用于垂直站立空间的电加热
    • WO2003001125A1
    • 2003-01-03
    • PCT/EP2002/003911
    • 2002-04-09
    • SOLARWORLD AKTIENGESELLSCHAFTHEROLD, HeikoHOLDENRIED, H., GünterMLECZKO, LeslawPFAFFELHUBER, MatthiasKÖNIG, Theo
    • HEROLD, HeikoHOLDENRIED, H., GünterMLECZKO, LeslawPFAFFELHUBER, MatthiasKÖNIG, Theo
    • F24H9/18
    • F24H9/1863F24H3/081
    • Die Erfindung betrifft eine Vorrichtung zur elektrischen Beheizung eines sich vertikal erstreckenden Raumes, z.B. eines Reaktors, auf hohe Temperaturen (≥1000 °C) und/oder mit großen Leistungen (30 bis 1000 kW je Zone), bestehend aus mehreren senkrecht übereinander angeordneten Heizzonen, wobei die Bestandteile der Vorrichtung mit Ausnahme der isolierenden Teile aus Graphitwerkstoffen bestehen. Die Vorrichtung soll derart ausgestaltet und weitergebildet werden, dass bei geringem Konstruktionsaufwand ein großmögliches Maß an Stabilität und Funktionstüchtigkeit der gesamten Vorrichtung erreicht wird. Insbesondere soll die Vorrichtung auch für die Beheizung sehr hoher Räume geeignet sein. Dies wird dadurch erreicht, dass jede Zone Z eine Mehrzahl von im wesentlichen gleichmäßig um den zu beheizenden Raum R verteilt angeordneten Stützen I aufweist, welche gleichzeitig als Stromzuführungen für die Heizer dienen und dass die Heizer jeder Zone Z an ihrem einen Ende fest und an ihrem anderen Ende längenverschieblich angeordnet sind.
    • 本发明涉及一种装置,用于电加热垂直直立室,例如 的反应器中在高温下(> / = 1000℃)和/或具有高输出功率(30至1000每区千瓦)由多个垂直堆叠的加热区,其特征在于,除了所述绝缘部件的装置的部件由石墨材料的 , 该设备进行配置和在在低建筑成本,稳定性和整个装置的功能的大的可能的程度,实现进一步的发展。 具体地,该设备还应该适合于非常高的加热室。 这得以实现,每个区域Z包括多个基本上均匀地围绕所述室被加热ř布置分布式支持I具有,其同时用作电流引线用于加热器和每个区域Z的在其一端的加热器固定,并且在其 的另一端被布置längenverschieblich。
    • 6. 发明申请
    • MODULAR INFRARED SPACE HEATER DEVICE
    • 模块化红外空气加热器装置
    • WO1981002964A1
    • 1981-10-15
    • PCT/US1980000384
    • 1980-04-08
    • JONES J
    • H05B01/00
    • F24H3/081A47B47/042E04B2/32E04B2002/0204F24H3/022H05B3/008
    • A modular infrared space heater device (10) includes a housing (12) having an air inlet (24) and an air exhaust (50). An enclosure (27) is spaced within housing (12) and forms a heating chamber (30) having an inlet (28) communicating with the housing inlet (24) and a plurality of outlet openings (48) communicating with the exhaust (50). A plurality of open-ended ferrous metal conduits (44) are supported at one end from a ferrous metal sheet (42) in the chamber (30) between the outlet openings (48) and a plurality of infrared lamps (34). Each conduit (44) extends through a different one of the outlet openings (48) with sufficient clearance to provide an air flow passage between the conduit (44) and the boundary of the opening (48). A refractive lens plate (39) having a plurality of convex focussing surfaces (40) is provided between the lamps (34) and conduits (44) to focus infrared radiation on the supported ends of the conduits (44). A fan (22) circulates room air to be heated through inlet (24) into the heating chamber (30) and over the lamps (34), metal sheet (42) and conduits (44) therein, through conduits (44) and openings (48) and out air exhaust (50).
    • 7. 发明申请
    • 카트리지 히터를 이용한 온풍 공급 시스템
    • 使用加热器的暖风空气供应系统
    • WO2015080458A1
    • 2015-06-04
    • PCT/KR2014/011409
    • 2014-11-26
    • 주식회사 자엔
    • 이상원김대훈
    • F24H3/02F24H3/06F24H9/00
    • F24H9/2071F24H3/081F24H9/0063F24H2250/02F28F13/06H05B3/82H05B2203/014H05B2203/021
    • 본 발명은 열을 제공하는 바 타입의 카트리지 히터; 상기 카트리지 히터의 외주면에 길이방향을 따라 나선 형태로 마련되는 스크류 날개; 상기 스크류 날개가 상기 카트리지 히터와 함께 내측에 삽입되고, 상기 스크류 날개에 의한 나선형 공기 통로를 형성하도록 가이드하는 중공의 케이스; 상기 케이스가 내측에 설치되고, 상기 케이스의 길이방향을 따라 송풍경로를 제공하는 송풍관; 및 상기 송풍관에 송풍력을 제공하도록 설치되는 브로워를 포함하도록 한 카트리지 히터를 이용한 온풍 공급 시스템에 관한 것이다. 본 발명에 따르면, 스크류 날개에 의한 와류 형성의 히팅 구조를 제공함으로써 송풍되는 공기와의 접촉면적을 확대시킴과 아울러, 통과하는 공기의 유로를 확장시켜서 열효율이 뛰어나도록 하고, 완전 살균 기화된 수분과 함께 온풍을 공급함으로써 청정한 온풍의 공급과 함께 습도 유지를 위한 수분을 공급하여 쾌적한 환경을 제공하고, 습도가 함유된 공기로 인해 열용량을 확대시킴으로써 효율적인 에너지 사용을 가능하도록 한다.
    • 本发明涉及一种使用盒式加热器的暖风供应系统,包括:用于供热的棒式筒式加热器; 螺旋翼,其沿着长度方向螺旋地设置在盒式加热器的外周上; 引导螺旋翼形成螺旋空气通道的中空壳体,螺旋翼和暗盒加热器插入其中; 鼓风管,其沿着壳体的纵向方向提供鼓风道,并且其中安装有壳体; 以及鼓风机,其被安装成向鼓风管提供鼓风功率。 本发明通过提供通过螺旋翼形成涡流的加热结构,同时扩大与吹送空气的接触面积来扩大通过空气的流路,从而提高热效率,通过提供湿气以保持湿度而具有纯净的温度来提供令人愉快的环境 通过用温暖的空气提供完全灭菌和蒸发的水分的空气,并且通过与含有水分的空气增加热容量来有效地利用能量。
    • 8. 发明申请
    • HEAT EXCHANGER
    • 换热器
    • WO2012175488A3
    • 2013-08-01
    • PCT/EP2012061693
    • 2012-06-19
    • BEHR GMBH & CO KGKOHL MICHAELKRUMBACH KARL-GERDSPRANGER THOMASSCHENK FRANK-HEINER
    • KOHL MICHAELKRUMBACH KARL-GERDSPRANGER THOMASSCHENK FRANK-HEINER
    • F24H3/08B23P15/26B60H1/00B60H1/22F24H9/18H05B3/04H05B3/46
    • F24H9/12B23P15/26B60H1/2225F24H3/0429F24H3/081F24H9/1872F24H2250/04H05B3/50H05B2203/02H05B2203/024Y10T29/49083
    • The invention relates to a heat exchanger (1), comprising at least one electric resistance heating element (2), in particular at least one PTC element (3), at least two conductors (4), in particular circuit boards (6, 7), which are connected to the at least one electric resistance heating element (2) in an electrically conductive manner in order to conduct electric current through the at least one electric resistance heating element (2) and thereby heat the electric resistance heating element (2), at least one thermally conductive element (11) for transferring heat from the at least one electric resistance heating element (2) to a fluid to be heated, at least one electrically insulating element (22), which electrically insulates the at least two conductors (4), preferably from the at least one thermally conductive element (11), and at least one pipe (18), wherein the at least two conductors (4) and the at least one electric resistance heating element (2) are arranged within a cavity (19) bounded by the pipe (18) and the pipe (18) lies on the at least one electrically insulating element (22) under a compressive force at at least one contact surface (14). The aim of the invention is to operate the heat exchanger with high electric current under high voltage, for example greater than 50 V, without any risk to the surroundings, in particular persons. Said aim is achieved in that the pipe (18) has a greater thickness at the at least one contact surface (14) than outside of the at least one contact surface (14) and a step (17) is formed on the pipe (18) between the contact surface (14) and the region outside of the contact surface (14) as a result of the differing thickness.
    • 一种热交换器(1),包括至少一个电阻加热元件(2),特别是至少一个PTC元件(3),至少两个所述至少一个电阻加热元件(2)电(导电连接导体(4),尤其是印刷电路板6,7 到被加热物)通过所述至少一个电阻加热元件传导电流(2),从而加热所述电阻加热元件(2),至少一个导热用于从所述至少一个电阻加热元件的热​​量传递元件(11)(2)到 其电从所述至少两个导体绝缘流体,至少一个电绝缘元件(22)(4),优选地所述至少一个导热元件(11),至少一个管(18)的,所述至少两个导体(4)和所述至少一个 内管中的一个(18)电阻加热元件(2)限定空腔(19)被布置为未 d中的至少一个电绝缘元件(22)上的至少一个支承表面(14)上的管(18)下的压缩力靠在与在高电压下的电流,例如。 大于50 V,可以在不危险的环境,特别是人类进行操作。 这个目的是由于位于管的内部此不同厚度来实现,所述管(18)具有至少一个支承表面(14)具有比所述至少一个支承表面(14)和外部的较大的厚度(18)具有肩部(17 )所述支承面(14)之间,并且所述支承面(14)的外部。