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    • 3. 发明申请
    • Variable Flow Digital Gas Valve
    • 可变流量数字式气阀
    • US20100176323A1
    • 2010-07-15
    • US12354541
    • 2009-01-15
    • Tam NguyenJames D. Kimble
    • Tam NguyenJames D. Kimble
    • F16K31/02
    • G05D7/0652F16K11/24F16K27/003F16K27/0263F16K27/029F16K31/0679Y10T137/86493Y10T137/87265Y10T137/87298Y10T137/87306Y10T137/87314Y10T137/87507
    • A variable flow rate gas control valve for use in consumer and commercial appliances is presented. The valve utilizes two or more solenoids to control the operating position of two different valve members whose orifices are sized in an exponential relationship with one another. By opening one or more of the valving members in various combinations, a variable flow rate of gaseous fuel may be controlled in integer multiple steps from full off to full on. The solenoid configurations may be in line, opposing, or symmetrical about an axis of the valve. The number of unique flow rates (F) is related to the number of solenoids (N) as F=2N. The relationship between the size (S) of the individual gas control orifices for each of the solenoids is related to N by the relationship S=2n−1 for each individual gas control orifice (n) numbered 1 to N.
    • 提出了一种用于消费和商业用途的可变流量气体控制阀。 该阀利用两个或多个螺线管来控制两个不同阀构件的操作位置,孔的尺寸彼此呈指数关系。 通过以各种组合打开一个或多个阀构件,气体燃料的可变流量可以从完全关闭到满的整数多个步骤被控制。 螺线管构造可以围绕阀的轴线成直线,相对或对称。 独特流量(F)的数量与螺线管(N)的数量相关,为F = 2N。 每个螺线管的各个气体控制孔的尺寸(S)之间的关系与N相关联,每个单独的气体控制孔(n)编号为1至N的关系为S = 2n-1。
    • 4. 发明授权
    • In-line solenoid valve
    • 在线电磁阀
    • US07182311B2
    • 2007-02-27
    • US11089082
    • 2005-03-24
    • James D. Kimble
    • James D. Kimble
    • F16K31/02
    • F16K31/0651F16K31/0655
    • A flow through solenoid valve comprises a housing, a coil encircling the housing, and a hollow plunger slidably positioned in the housing. The housing has an inlet, a seat, and an outlet. The hollow plunger has a fixed segment and a poppet segment. The poppet segment includes a poppet conduit and is slideable within the housing. The spring encircles the poppet segment and biases the poppet segment toward the seat. The solenoid valve is energized to disengage the poppet segment from the seat. When the poppet and the seat are disengaged, a gas is permitted to flow through the hollow plunger. The solenoid valve is de-energized to engage the poppet segment and the seat. When the poppet and the seat are engaged, the gas is prevented from flowing out of the outlet.
    • 流过电磁阀的流体包括壳体,环绕壳体的线圈和可滑动地定位在壳体中的中空柱塞。 壳体具有入口,座椅和出口。 中空柱塞具有固定段和提升段。 提升部分包括提升管道,并且可在壳体内滑动。 弹簧围绕提升部分,并将提升部分朝向座位偏置。 电磁阀通电以使提升阀杆与阀座脱离。 当提升阀和阀座脱开时,允许气体流过中空柱塞。 电磁阀断电以接合提升阀座和阀座。 当提升阀和阀座接合时,防止气体从出口流出。
    • 6. 发明授权
    • Gas manifold connector and gas distribution manifold assembly for gas
stove
    • 气体歧管连接器和燃气灶的气体分配歧管组件
    • US6082397A
    • 2000-07-04
    • US156975
    • 1998-09-18
    • David A. CasolariChristos VassiliouJoseph L. AstaJames D. Kimble
    • David A. CasolariChristos VassiliouJoseph L. AstaJames D. Kimble
    • F16L41/02F16L41/08F16L41/14F16L15/00
    • F16L41/025F16L41/086F16L41/14
    • A gas distribution connector and a gas distribution manifold assembly are provided for gas burners for a gas stove. The gas distribution manifold assembly includes an elongated gas distribution manifold defining a gas distribution chamber. The gas distribution manifold includes a first aperture formed in a first wall and a second aperture formed in a second wall. At least one gas distribution connector is mounted on the gas manifold. The gas distribution connector includes a connector body defining a gas passageway including a gas inlet and a gas outlet. The connector body includes a downwardly depending connector body portion slidingly received through the first manifold aperture and extending within the manifold chamber, locating the gas outlet within the manifold chamber. The downwardly depending connector body portion includes mounting means for mounting engagement with a fastener received through the second manifold aperture.
    • 气体分配连接器和气体分配歧管组件设置用于燃气灶的气体燃烧器。 气体分配歧管组件包括限定气体分配室的细长气体分配歧管。 气体分配歧管包括形成在第一壁中的第一孔和形成在第二壁中的第二孔。 至少一个气体分配连接器安装在气体歧管上。 气体分配连接器包括限定包括气体入口和气体出口的气体通道的连接器主体。 连接器主体包括向下悬垂的连接器主体部分,其滑动地容纳在第一歧管孔口内并在歧管腔室内延伸,将气体出口定位在歧管腔室内。 向下悬挂的连接器主体部分包括用于安装与通过第二歧管孔接收的紧固件接合的安装装置。