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    • 1. 发明申请
    • Spray Nozzles
    • 喷嘴喷嘴
    • US20080191056A1
    • 2008-08-14
    • US12030402
    • 2008-02-13
    • Daniel T. deLesdernierMatthew P. BetsoldDouglas J. DziadzioJohn D. PulaskiThomas A. Bassett
    • Daniel T. deLesdernierMatthew P. BetsoldDouglas J. DziadzioJohn D. PulaskiThomas A. Bassett
    • B05B7/10
    • B05B1/00B05B1/14B05B15/18
    • A spray nozzle for discharging at least one fluid in a spray pattern into a fluid stream in a vessel, such as an atomized mixture of oil and steam in a fluidic catalytic cracking unit, wherein the nozzle alters the flow patterns of the fluid stream in the vicinity of the nozzle to inhibit erosion of the nozzle and maintain the spray pattern. The nozzle comprises an inlet member defining at least one inlet conduit and an outlet member in fluid communication with the inlet member. The outlet member includes an exterior surface and a plurality of bosses angularly spaced relative to each other about an axis of the outlet, each boss defining an outlet aperture in fluid communication with the at least one inlet conduit having a length (L) and a diameter (D) and an axially extending wall, wherein the axially extending wall extends outwardly a length (X) greater than about 1/8 inch relative to the exterior surface and L/D is at least about 1/2.
    • 一种用于将喷雾图案中的至少一种流体排放到流体催化裂化装置中的诸如油和蒸汽的雾化混合物的容器中的流体流的喷嘴,其中所述喷嘴改变流体流中的流动模式 喷嘴附近以抑制喷嘴的侵蚀并保持喷射模式。 喷嘴包括限定至少一个入口管道和与入口构件流体连通的出口构件的入口构件。 出口构件包括外表面和围绕出口的轴线相对于彼此成角度地间隔开的多个凸起,每个凸台限定与至少一个入口导管流体连通的出口孔,所述入口导管具有长度(L)和直径 (D)和轴向延伸的壁,其中轴向延伸的壁相对于外表面向外延伸大于约1/8英寸的长度(X),并且L / D至少约1/2。
    • 2. 发明授权
    • Spray nozzles
    • 喷嘴
    • US08025792B2
    • 2011-09-27
    • US12030402
    • 2008-02-13
    • Daniel T. deLesdernierMatthew P. BetsoldDouglas J. DziadzioJohn D. PulaskiThomas A. Bassett
    • Daniel T. deLesdernierMatthew P. BetsoldDouglas J. DziadzioJohn D. PulaskiThomas A. Bassett
    • C10G11/00B01J8/18
    • B05B1/00B05B1/14B05B15/18
    • A spray nozzle for discharging at least one fluid in a spray pattern into a fluid stream in a vessel, such as an atomized mixture of oil and steam in a fluidic catalytic cracking unit, wherein the nozzle alters the flow patterns of the fluid stream in the vicinity of the nozzle to inhibit erosion of the nozzle and maintain the spray pattern. The nozzle comprises an inlet member defining at least one inlet conduit and an outlet member in fluid communication with the inlet member. The outlet member includes an exterior surface and a plurality of bosses angularly spaced relative to each other about an axis of the outlet, each boss defining an outlet aperture in fluid communication with the at least one inlet conduit having a length (L) and a diameter (D) and an axially extending wall, wherein the axially extending wall extends outwardly a length (X) greater than about ⅛ inch relative to the exterior surface and L/D is at least about ½.
    • 一种用于将喷雾图案中的至少一种流体排放到流体催化裂化装置中的诸如油和蒸汽的雾化混合物的容器中的流体流的喷嘴,其中所述喷嘴改变流体流中的流动模式 喷嘴附近以抑制喷嘴的侵蚀并保持喷射模式。 喷嘴包括限定至少一个入口管道和与入口构件流体连通的出口构件的入口构件。 出口构件包括外表面和围绕出口的轴线相对于彼此成角度地间隔开的多个凸起,每个凸台限定与至少一个入口导管流体连通的出口孔,所述入口导管具有长度(L)和直径 (D)和轴向延伸的壁,其中轴向延伸的壁相对于外表面向外延伸大于约⅛英寸的长度(X),并且L / D至少约为1/2。
    • 3. 再颁专利
    • Swirl unit, orifice plate, and spray nozzle including same
    • 涡流单元,孔板和包括其的喷嘴
    • USRE39767E1
    • 2007-08-14
    • US10373597
    • 2003-02-25
    • Lincoln S. SouleDouglas J. DziadzioMark W. YornsPaul J. MuellerDaniel T. deLesdernierThomas A. BassettShane TaylorMatthew P. Betsold
    • Lincoln S. SouleDouglas J. DziadzioMark W. YornsPaul J. MuellerDaniel T. deLesdernierThomas A. BassettShane TaylorMatthew P. Betsold
    • B05B1/34
    • B05B1/3442B05B1/3436
    • In a spray nozzle (10), a carrier (12) defines a spray aperture (20), a groove (30) surrounding the spray aperture for receiving an o-ring (32), a first locating bore (26) for slidably receiving an orifice plate (14) seated against the o-ring (32) and for aligning the orifice plate with the spray aperture, and a second locating bore (28) for slidably receiving a swirl unit and aligning the swirl unit (16) with the orifice plate and spray aperture. The swirl unit (16) defines on its peripheral surface a recessed flat (58) forming a fluid passageway between the swirl unit and carrier. The swirl unit (16) includes a swirl chamber (60) defined by a curvilinear surface (62) formed within the swirl unit, and an inlet port (64) formed in fluid communication between the swirl chamber and fluid passageway. The nozzle body (18) is threadedly received within the carrier (12) behind the swirl unit (16) to axially press the swirl unit, and in turn press the orifice plate (14) against the adjacent surface of the carrier.
    • 在喷嘴(10)中,载体(12)限定了喷射孔(20),围绕喷射孔的凹槽(30),用于容纳O形环(32),第一定位孔(26),用于可滑动地接收 安置在所述O形环(32)上并用于使所述孔板与所述喷射孔对准的孔板(14)和用于可滑动地容纳旋转单元并使所述旋流单元(16)与所述旋转单元 孔板和喷孔。 旋转单元(16)在其外周表面上限定形成在旋转单元和载体之间的流体通道的凹入平面(58)。 涡流单元(16)包括由形成在旋转单元内的曲线表面(62)限定的涡流室(60)和形成为在涡流室和流体通道之间流体连通的入口(64)。 喷嘴主体(18)螺旋地容纳在旋转单元(16)后面的载体(12)内,以轴向地按压旋转单元,并且再次将孔板(14)压靠在载体的相邻表面上。
    • 4. 再颁专利
    • Swirl unit, orifice plate, and spray nozzle including same
    • 涡流单元,孔板和包括其的喷嘴
    • USRE41864E1
    • 2010-10-26
    • US11893091
    • 2007-08-13
    • Lincoln S. SouleDouglas J. DziadzioMark W. YornsPaul J. MuellerDaniel T. deLesdernierThomas A. BassettShane TaylorMatthew P. Betsold
    • Lincoln S. SouleDouglas J. DziadzioMark W. YornsPaul J. MuellerDaniel T. deLesdernierThomas A. BassettShane TaylorMatthew P. Betsold
    • B05B1/34
    • B05B1/3442B05B1/3436
    • In a spray nozzle (10), a carrier (12) defines a spray aperture (20), a groove (30) surrounding the spray aperture for receiving an o-ring (32), a first locating bore (26) for slidably receiving an orifice plate (14) seated against the o-ring (32) and for aligning the orifice plate with the spray aperture, and a second locating bore (28) for slidably receiving a swirl unit and aligning the swirl unit (16) with the orifice plate and spray aperture. The swirl unit (16) defines on its peripheral surface a recessed flat (58) forming a fluid passageway between the swirl unit and carrier. The swirl unit (16) includes a swirl chamber (60) defined by a curvilinear surface (62) formed within the swirl unit, and an inlet port (64) formed in fluid communication between the swirl chamber and fluid passageway. The nozzle body (18) is threadedly received within the carrier (12) behind the swirl unit (16) to axially press the swirl unit, and in turn press the orifice plate (14) against the adjacent surface of the carrier.
    • 在喷嘴(10)中,载体(12)限定了喷射孔(20),围绕喷射孔的凹槽(30),用于容纳O形环(32),第一定位孔(26),用于可滑动地接收 安置在所述O形环(32)上并用于使所述孔板与所述喷射孔对准的孔板(14)和用于可滑动地容纳旋转单元并使所述旋流单元(16)与所述旋转单元 孔板和喷孔。 旋转单元(16)在其外周表面上限定形成在旋转单元和载体之间的流体通道的凹入平面(58)。 涡流单元(16)包括由形成在旋转单元内的曲线表面(62)限定的涡流室(60)和形成为在涡流室和流体通道之间流体连通的入口(64)。 喷嘴主体(18)螺旋地容纳在旋转单元(16)后面的载体(12)内,以轴向地按压旋转单元,并且再次将孔板(14)压靠在载体的相邻表面上。
    • 6. 发明授权
    • Swirl unit, orifice plate, and spray nozzle including same
    • 涡流单元,孔板和包括其的喷嘴
    • US06193172B1
    • 2001-02-27
    • US09322792
    • 1999-05-28
    • Lincoln S. SouleDouglas J. DziadzioMark W. YornsPaul MuellerDaniel deLesdernierThomas A. BassettMatthew P. BetsoldShane Taylor
    • Lincoln S. SouleDouglas J. DziadzioMark W. YornsPaul MuellerDaniel deLesdernierThomas A. BassettMatthew P. BetsoldShane Taylor
    • B05B134
    • B05B1/3442B05B1/3436
    • In a spray nozzle (10), a carrier (12) defines a spray aperture (20), a groove (30) surrounding the spray aperture for receiving an o-ring (32), a first locating bore (26) for slidably receiving an orifice plate (14) seated against the o-ring (32) and for aligning the orifice plate with the spray aperture, and a second locating bore (28) for slidably receiving a swirl unit and aligning the swirl unit (16) with the orifice plate and spray aperture. The swirl unit (16) defines on its peripheral surface a recessed flat (58) forming a fluid passageway between the swirl unit and carrier. The swirl unit (16) includes a swirl chamber (60) defined by a curvilinear surface (62) formed within the swirl unit, and an inlet port (64) formed in fluid communication between the swirl chamber and fluid passageway. The nozzle body (18) is threadedly received within the carrier (12) behind the swirl unit (16) to axially press the swirl unit, and in turn press the orifice plate (14) against the adjacent surface of the carrier.
    • 在喷嘴(10)中,载体(12)限定了喷射孔(20),围绕喷射孔的凹槽(30),用于容纳O形环(32),第一定位孔(26),用于可滑动地接收 安置在所述O形环(32)上并用于使所述孔板与所述喷射孔对准的孔板(14)和用于可滑动地容纳旋转单元并使所述旋流单元(16)与所述旋转单元 孔板和喷孔。 旋转单元(16)在其外周表面上限定形成在旋转单元和载体之间的流体通道的凹入平面(58)。 涡流单元(16)包括由形成在旋转单元内的曲线表面(62)限定的涡流室(60)和形成为在涡流室和流体通道之间流体连通的入口(64)。 喷嘴主体(18)螺旋地容纳在旋转单元(16)后面的载体(12)内,以轴向地按压旋转单元,并且再次将孔板(14)压靠在载体的相邻表面上。