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    • 1. 发明申请
    • SURFACE CLEANER AND RETRIEVAL UNIT
    • 表面清洁器和检索单元
    • WO2002102527A1
    • 2002-12-27
    • PCT/US2002/019374
    • 2002-06-18
    • CYCLONE SURFACE CLEANING, INC.
    • ROHRBACHER, Richard, D.STAHOVIAK, Timothy, P.SONNETT, Jacob, M.JENTINK, Ben, W.ROHRBACHER, R., Scott
    • B08B7/04
    • E01H1/103A47L11/03A47L11/302A47L11/38A47L11/4038A47L11/4069A47L11/4088B05B3/06B08B3/024B08B2203/0229
    • This invention is directed to a cyclonic power system and method of using the system to clean flat surfaces. The cyclone power system includes a driven spindle (60) that is mounted for rotation about its longitudinal axis. There are a plurality of radially extending straight rods (54) extending from the spindle (60). Curved blades (52) are connected at one end to the spindle and at their other end to the free end of a straight rod. The centrifugal force, generated as a result of the rotation of the driven spindle is not effective to cause the straight rods, which are constructed of stainless steel, to lengthen and since the curved blades are connected to the straight rods, the centrifugal force is not effective to lengthen the curved blades. In an embodiment of the invention a perforated disc is secured to the bottom surface of the spindle and to the free ends of the straight rods. In this embodiment the water and debris is pulled up through the perforation in the disc. The perforated disc protects the rotary member from heavy projectiles that are lifted from the surface to be cleaned, adds to the stability to the rotary member and has eliminated of the need for the supports extending between the mid-portion of the curved blades and the straight rods. In addition to the above improvements the flow through the perforations in the disc is limited to the upward flow and once water laden with debris has passed through the perforations in the disc it remains above the disc and is swept to the discharge.
    • 本发明涉及一种使用该系统来清洁平坦表面的旋风动力系统和方法。 旋风动力系统包括从动主轴(60),其被安装成围绕其纵向轴线旋转。 存在从主轴(60)延伸的多个径向延伸的直杆(54)。 弯曲刀片(52)的一端连接到主轴,并且在另一端连接到直杆的自由端。 由于从动轴的转动而产生的离心力对于使由不锈钢构成的直杆延长而不是有效的,并且由于弯曲的叶片连接到直杆上,离心力不是 有效地延长弯曲的叶片。 在本发明的一个实施例中,多孔盘被固定到主轴的底表面并固定到直杆的自由端。 在该实施例中,水和碎屑通过盘中的穿孔被拉起。 多孔盘保护旋转构件不被从待清洁的表面提升的重弹丸,增加了对旋转构件的稳定性,并且消除了在弯曲叶片的中间部分和直线之间延伸的支撑件的需要 棒。 除了上述改进之外,通过盘中的穿孔的流动被限制到向上的流动,并且一旦含有碎屑的水已经通过盘中的穿孔,其保持在盘的上方并被扫过排放物。
    • 3. 发明申请
    • DUAL FLOW CONVECTION AND RADIATION GAS OVEN
    • 双流对流和放射气体烤箱
    • WO2005050093A1
    • 2005-06-02
    • PCT/US2004/037974
    • 2004-11-12
    • BLODGETT HOLDINGS, INC.SMITH, Robert, L.
    • SMITH, Robert, L.
    • F24C15/32
    • F24C15/322
    • A dual flow convection oven is described. The oven consists of an inner metal liner spaced away from an insulated housing. Gas burners are disposed between the liner and the housing so that products of combustion from the burner circulate around the liner heating the same to generate radiant energy within the cooking cavity. A fan is further provided at the back wall disposed between a baffle plate assembly and the back wall of the liner. The baffle plate assembly includes a circular opening coaxially disposed with the fan, and the back wall of the liner has a similar opening for admitting the products of combustion into the fan. Combustionair and recirculated air from the oven muffle are thus mixed and expelled to the oven muffle by the fan. Diverter plates are disposed between the baffle plate assembly and the back wall which plates extend only partially around the circumference of the fan. A separate control is provided for the burner assembly to generate either 17,6 kWh (60,000 BTUs) or (80,000 BTUs) of energy.
    • 描述了双流对流炉。 烘箱由一个与绝缘壳体间隔开的内部金属衬套组成。 气体燃烧器设置在衬套和壳体之间,使得来自燃烧器的燃烧产物在衬管周围循环,加热衬套以在烹饪腔内产生辐射能。 还设置在设置在挡板组件和衬套的后壁之间的后壁处的风扇。 挡板组件包括与风扇同轴地设置的圆形开口,并且衬套的后壁具有用于允许燃烧产物进入风扇的相似开口。 因此,燃烧器和来自烘箱马弗炉的再循环空气被混合并通过风扇排放到烘箱马弗炉中。 分流板设置在挡板组件和后壁之间,该板仅部分地围绕风扇的圆周延伸。 为燃烧器组件提供单独的控制以产生17,6kWh(60,000BTU)或(80,000BTU)的能量。
    • 5. 发明授权
    • Network node, communication system, and method for transmitting clock packet through tunnel
    • 网络节点,通信系统和通过隧道传输时钟包的方法
    • US08638822B2
    • 2014-01-28
    • US13216909
    • 2011-08-24
    • Jiangsheng WangZhichang LaiSuolin Chang
    • Jiangsheng WangZhichang LaiSuolin Chang
    • H04J3/06
    • H04J3/0673H04J3/0667H04L12/4633H04L45/00
    • A network node, a communication system, and a method for transmitting a clock packet through a tunnel are disclosed. The method includes: encapsulating a tunnel ingress clock packet received at an ingress of a tunnel in an encapsulation mode corresponding to the tunnel, and performing clock correction for the encapsulated clock packet; and sending the corrected clock packet to an egress of the tunnel. The network node for processing a clock packet includes an encapsulating module and a sending module. The communication system includes the network node for processing a clock packet, and further includes an intra-tunnel network node and a tunnel egress network node. According to the present invention, a clock packet is re-encapsulated and transmitted through a tunnel. In the subsequent process of transmitting the clock packet transparently, the node itself serves as a clock reference point, and all network nodes do not need to synchronize time absolutely.
    • 公开了一种网络节点,通信系统以及通过隧道发送时钟分组的方法。 该方法包括:以与隧道对应的封装模式封装在隧道入口处接收到的隧道入口时钟包,并对封装的时钟包执行时钟校正; 并将修正的时钟分组发送到隧道的出口。 用于处理时钟分组的网络节点包括封装模块和发送模块。 通信系统包括用于处理时钟分组的网络节点,并且还包括隧道内网络节点和隧道出口网络节点。 根据本发明,时钟分组被重新封装并通过隧道传输。 在透明时钟分组的后续过程中,节点本身作为时钟参考点,所有网络节点不需要绝对同步时间。
    • 8. 发明授权
    • Sprinkler drop ruler
    • 洒水器尺子
    • US08601700B2
    • 2013-12-10
    • US13325724
    • 2011-12-14
    • Matthew Scavone
    • Matthew Scavone
    • B43L7/00G01B5/14
    • E04F21/1805G01B3/08
    • A sprinkler drop ruler is provided for measuring the sprinkler drop from a roughed-in outlet. The sprinkler drop ruler includes a rigid frame having an opening, a handle connected to the rigid frame and in fixed relation to the rigid frame, and a ruler with an end shaped to seat in the opening and configured to move inside or along a side of the handle in order to measure a sprinkler drop. The sprinklerfitter may thus use the sprinkler drop ruler in order to measure the sprinkler drop. In this way, the sprinklerfitter does not need to climb a ladder to measure the sprinkler drop.
    • 提供了一个喷淋头滴尺,用于测量从粗化出口排出的喷洒水滴。 喷洒器下垂标尺包括具有开口的刚性框架,连接到刚性框架并且与刚性框架固定的手柄的手柄,以及具有端部的尺子,该尺子被定位成位于开口中并且构造成沿着 手柄为了测量喷头的下落。 因此,喷水灭火器可以使用喷洒器滴尺来测量喷洒器落下。 以这种方式,喷水灭火器不需要爬上梯子来测量喷洒水滴。
    • 9. 发明授权
    • Air bag device
    • 气囊装置
    • US08596679B2
    • 2013-12-03
    • US12672761
    • 2008-07-23
    • Jun HorikawaTakashi Haga
    • Jun HorikawaTakashi Haga
    • B60R21/201B60R21/205B60R21/2334
    • B60R21/201B60R21/217B60R2021/161
    • To prevent positional deviation in a folded back portion of a deployment restriction sheet reliably, an air bag device includes an air bag 1, an inflator 7 for deploying the air bag 1 by supplying the air bag with a generated gas, an air bag case 3 used to attach the inflator 7 and store the air bag 1, a retainer 6 for fixing an opening portion peripheral edge of the air bag 1 to the air bag case 3, and a deployment restriction sheet 11 that covers the air bag 1 from a vehicle body rear side to a vehicle body front side when the air bag 1 is stored. In the deployment restriction sheet 11, a folded back portion 11c is subjected to tacking 11d so as to separate upon application of a predetermined load A, and a rupturable portion 11e that ruptures upon application of a predetermined load B, which is larger than the load A, is provided on a first end 11a side positioned on the vehicle body front side. The first end 11a is attached to an air bag main body. A second end 11b is installed on the air bag main body. As a result, positional deviation of the folded back portion does not occur, and a cushioning effect can be applied to an occupant effectively.
    • 为了可靠地防止展开限制片的折回部分的位置偏离,气囊装置包括气囊1,用于通过向气囊供给产生气体来展开气囊1的充气机7,气囊壳3 用于安装充气器7并存放气囊1,用于将安全气囊1的开口部分周缘固定​​到安全气囊壳体3的保持器6和从车辆覆盖气囊1的展开限制片11 当安全气囊1被储存时,车体后侧到车身前侧。 在展开限制片材11中,折叠部分11c被承受11d,以便在施加预定的载荷A时分开,并且在施加大于载荷的预定载荷B时破裂的可破裂部分11e A设置在位于车身前侧的第一端11a侧。 第一端部11a附接到气囊主体。 第二端11b安装在气囊主体上。 结果,不会发生折回部的位置偏差,能够有效地对乘员施加缓冲效果。