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    • 1. 发明申请
    • Furnace distribution blower without a blower housing
    • 炉子分配鼓风机没有鼓风机外壳
    • US20050194003A1
    • 2005-09-08
    • US11005541
    • 2004-12-06
    • Frederick PaulsenSteven PostJohn Platz
    • Frederick PaulsenSteven PostJohn Platz
    • F24H3/02
    • F04D29/4226F04D29/422
    • A furnace distribution blower for use in a conventional furnace that is configured without a blower housing. The furnace distribution blower includes a backward curved impeller mounted around a drive motor having a central drive shaft. The drive motor rotates the backward curved impeller to draw air into the inlet of the impeller. Preferably, the inlet of the impeller is closely mounted to an inlet bell of the furnace. The furnace distribution blower can be mounted to a support tray such that the furnace distribution blower can be moved from an operating position in which the impeller is positioned beneath the heat exchanger and a service position in which the impeller is removed from within the furnace housing. The elimination of the blower housing decreases the cost of the furnace distribution blower as compared to a blower having a housing.
    • 一种在没有鼓风机壳体构造的常规炉中使用的炉分配鼓风机。 炉分配鼓风机包括安装在具有中心驱动轴的驱动马达周围的向后弯曲的叶轮。 驱动马达使向后弯曲的叶轮旋转,将空气吸入叶轮入口。 优选地,叶轮的入口紧密地安装到炉的入口钟。 炉分配鼓风机可以安装到支撑托盘上,使得炉子分配鼓风机能够从叶轮定位在热交换器下方的操作位置和从炉壳内取出叶轮的使用位置移动。 与具有壳体的鼓风机相比,消除鼓风机壳体降低了分配鼓风机的成本。
    • 2. 发明申请
    • Furnace Air Handler Blower Housing with an Enlarged Air Outlet Opening
    • 具有扩大空气出口开口的炉空气处理机鼓风机壳体
    • US20110114073A2
    • 2011-05-19
    • US12178161
    • 2008-07-23
    • Steven Post
    • Steven Post
    • F24H3/06
    • F24H3/065F04D29/422F04D29/4226
    • An air distribution blower housing for an air handler such as a residential furnace is designed with an enlarged air outlet opening that slows down and spreads out the air flow from the blower housing over a greater area of the furnace heat exchanger. The blower housing thereby enables less air pressure drop through the heat exchanger, which increases the efficiency of the blower motor operation. The design of the blower housing also efficiently turns the velocity head of the air flow through the housing to usable static air pressure at the housing air outlet. The enlarged air outlet opening of the blower housing is achieved without increasing the exterior diameter dimensions of the blower housing whereby the blower housing is used in a compact enclosure for residential use. This is accomplished by utilizing a volute outer wall of the blower housing that has an exponentially increasing expansion angle in the direction of air flow through the blower housing.
    • 用于诸如住宅炉的空气处理器的空气分配鼓风机壳体被设计成具有放大的出气开口,其减慢并扩散来自鼓风机壳体的空气流在炉热交换器的更大面积上。 因此,鼓风机壳体能够减少通过热交换器的空气压降,这提高了鼓风机电机的运行效率。 鼓风机壳体的设计还有效地将气流的速度头部通过壳体转动到壳体空气出口处的可用静态空气压力。 在不增加鼓风机壳体的外径尺寸的情况下实现鼓风机壳体的扩大的出气口,由此鼓风机壳体用于住宅使用的紧凑的外壳中。 这通过利用鼓风机壳体的蜗壳外壁在通过鼓风机壳体的空气流动方向上具有指数增加的膨胀角来实现。
    • 3. 发明申请
    • High Efficiency Furnace/Air Handler Blower Housing with a Side Wall Having an Exponentially Increasing Expansion Angle
    • 高效炉/空气处理机鼓风机壳体,侧壁具有指数增加的膨胀角度
    • US20100263653A2
    • 2010-10-21
    • US12631415
    • 2009-12-04
    • Steven Post
    • Steven Post
    • F24H3/02
    • F24H3/087F04D29/422F04D29/4226F24H3/065F24H9/0073
    • An air distribution blower housing for an air handler such as a residential furnace is designed with a volute-shaped outer wall that has an exponentially increasing expansion angle in the direction of air flow through the blower housing for at least a portion of the volute-shaped outer wall length. This results in the blower housing having an enlarged air outlet opening that slows down and spreads out the air flow from the blower housing over a greater area of the furnace heat exchanger. The blower housing thereby enables less air pressure drop through the heat exchanger, which increases the efficiency of the blower motor operation. The design of the blower housing also efficiently turns the velocity head of the air flow through the housing to usable static air pressure at the housing air outlet.
    • 用于诸如住宅炉的空气处理器的空气分配鼓风机壳体被设计成具有蜗壳形的外壁,其在通过鼓风机壳体的空气流动方向上具有指数增加的膨胀角,用于至少一部分蜗壳形状 外墙长度。 这导致鼓风机壳体具有扩大的空气出口开口,其减慢并将来自鼓风机壳体的空气流散布在炉热交换器的较大区域上。 因此,鼓风机壳体能够减少通过热交换器的空气压降,这提高了鼓风机电机的运行效率。 鼓风机壳体的设计还有效地将气流的速度头部通过壳体转动到壳体空气出口处的可用静态空气压力。