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
    • 2. 发明公开
    • BIOMASS STOVE, IN PARTICULAR FOR PELLET, EXHIBITING AN AUTOMATIC OPERATION
    • 生物质锅炉,尤其是小球,展示自动化操作
    • EP3236151A1
    • 2017-10-25
    • EP17166837.9
    • 2017-04-18
    • Prisma Stufe Srl
    • PIAGGI, Giuseppe
    • F23B60/02F23B90/04F23N3/08F23N5/02F23N5/00F24B7/00
    • F23B60/02F23B90/04F23N3/08F23N5/003F23N5/02F23N2025/10F23N2025/14F23N2033/08F23N2039/02F24B7/00
    • An innovative biomass stove (10), in particular pellet, comprising:
      - a heat generator (11) apt to be loaded with a biomass (BM);
      - a feeding system (13) apt to feed a primary flow (f) of combustion air to the heat generator (11), so as to produce a combustion flame (12) and generate heat;
      - a ventilation system (14) including a fan (14a) apt to blow a secondary flow (14b) of forced air in the gaps of the biomass (BM), loaded in the heat generator (11), so as to increase the size of the flame combustion (12);
      - a temperature sensor (16) apt to detect the temperature (Tf) of the combustion flame (12); and
      - an electronic control unit (18) apt to govern and control the operation of the biomass stove (10);
      wherein the electronic control unit (18, SW) is configured to automatically control the speed of the fan (14a) and consequently the secondary flow of forced air aimed at supplying the combustion of the biomass, as a function of the temperature (Tf) of the combustion flame (12), in particular during the final phase of the biomass combustion cycle and therefore its carbonisation, so as to determine the complete combustion of the biomass (BM) at the end of its combustion cycle.
    • 一种创新的生物质炉(10),特别是颗粒,包括: - 容易装载生物质(BM)的热发生器(11); - 适于将燃烧空气的主流(f)供给到热发生器(11)的供给系统(13),以便产生燃烧火焰(12)并产生热量; - 包括风扇(14a)的通风系统(14),所述风扇易于将强制空气的二次流动(14b)吹入装载在发热器(11)中的生物质(BM)的间隙中,从而增大尺寸 的火焰燃烧(12); - 适于检测燃烧火焰(12)的温度(Tf)的温度传感器(16); 和 - 适于管理和控制生物质炉(10)的操作的电子控制单元(18); 其中,所述电子控制单元(18,SW)被配置为根据所述电子控制单元(18,SW)的温度(Tf)自动控制所述风扇(14a)的速度并且因此自动控制旨在供应所述生物质的燃烧的强制空气的二次流 燃烧火焰(12),特别是在生物质燃烧循环的最后阶段以及因此其碳化,以确定生物质(BM)在其燃烧循环结束时完全燃烧。
    • 3. 发明公开
    • Heizvorrichtung
    • EP2040011A2
    • 2009-03-25
    • EP08004240.1
    • 2008-03-07
    • Stachel AG
    • Stachel, Frank-Peter
    • F24H6/00
    • F24B7/00F24B9/04F24H6/00
    • Die Erfindung betrifft eine Heizvorrichtung, insbesondere einen Kachelofen, einen Heizkamin oder Kaminofen.
      Um die oben beschriebene Überhitzung von Räumen auf einfache Art zu vermeiden, wobei auch eine Nachrüstung bestehender Anlagen möglich sein soll, wird im Rahmen der Erfindung vorgeschlagen, daß ein Luft-Wasser-Wärmetauscher in Bereichen der Heizvorrichtung angeordnet ist, in denen die Raumluft erwärmt wird.
      Da durch die Erfindung kein Eingriff in die Rauchgase erfolgt und auch die Luftzirkulation durch den Luft-Wasser-Wärmetauscher hindurch gewährleistet ist, dürfte die Verwendung einer solchen Vorrichtung unproblematisch sein.
    • 该装置具有设置在用于加热环境空气的装置的烟囱插入件的外侧的空气 - 水热交换器(1)。 热交换器围绕中间轴线(M)弯曲成半圆形,设计为L形或U形。 在空气 - 水 - 热交换器中设置有泵。 热交换器具有彼此平行的管道(2)。 泵循环由热交换器加热的水。 热交换器占据从加热装置传递的热量的一部分。 排水管(3,4)设置在管道的两端。
    • 5. 发明公开
    • SELF POWERED HEAT TRANSFER FAN
    • 自供电风扇传热
    • EP2271840A1
    • 2011-01-12
    • EP08748272.5
    • 2008-05-08
    • Reid, Randall H.
    • Reid, Randall H.
    • F04D25/02F24B1/185F24B7/06F24F7/007F24H3/04
    • F04D25/04F04D25/0606F04D25/08F24B7/00F24B7/025F24D2200/07F24H3/04F24H3/0494
    • A self-powered fan for circulating air for use in cooperation with a heat source, such as a wood stove, and having a first heat transfer member thermally and physically connected with the heat source. The fan blades operably create a first or warm air flow and a second or cooler air flow. The fan has a second heat transfer member with a thermocouple module structure located between the two heat transfer members. The first heat transfer member is of suitable material, size, mass and shape as to provide a suitable temperature gradient between the thermocouple structure and the heat source to operably allow of such sufficient heat transfer from the first heat transfer member to the thermocouple to generate sufficient power to effect rotation of the blades, but not to cause thermal damage to the thermocouple structure. The fan blades are constructed and arranged to cause a portion of the second air flow to be drawn past the first heat transfer member to effect a cooling heat transfer effect upon the first heat transfer member. The improvement is wherein the motor located on the first transfer member adjacent a side of the thermocouple structure remote from the second transfer member does not hinder the second air flow, and is suitably located as to not be operably thermally damaged by the first heat transfer member or the heat source.