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    • 1. 发明授权
    • Distributor device
    • 分销商设备
    • US08506230B2
    • 2013-08-13
    • US12743534
    • 2008-11-14
    • Janne OllilaTom RönnbergAri Ceder
    • Janne OllilaTom RönnbergAri Ceder
    • B65G25/00
    • C21B7/20B65G69/0441F27B1/20F27B3/18F27D3/0025F27D3/0033F27D3/10
    • A distributor device including a distribution chute that extends inside the tank at an inclined angle for distributing material in the interior of the tank. A rotation frame is rotatable around a vertical central rotation axis (L) and includes a vertical inlet channel extending to the interior of the tank. A circular support frame is horizontally attached to the rotation frame, concentrically in relation to the vertical central rotation axis. A number of support rollers are connected to the tank and the axes of the support rollers are positioned radially with respect to the central rotation axis (L). At least one of the support rollers is as a support roller driving the rotation frame, which support roller the actuator is arranged to rotate. The distributor device includes a counterweight attached to the rotation frame, on the opposite side of the central rotation axis (L) in relation to the distribution chute.
    • 一种分配器装置,其包括分配槽,其在倾斜角度内在罐内延伸,用于在罐的内部分配材料。 旋转框架可围绕竖直中心旋转轴线(L)旋转并且包括延伸到罐体内部的垂直入口通道。 圆形支撑框架相对于垂直中心旋转轴线同心地水平地附接到旋转框架。 多个支撑辊连接到罐,并且支撑辊的轴线相对于中心旋转轴线(L)径向定位。 支撑辊中的至少一个作为驱动旋转框架的支撑辊,该支撑辊使致动器布置成旋转。 分配器装置包括相对于分配斜槽在中心旋转轴线(L)的相对侧附接到旋转框架的配重。
    • 2. 发明申请
    • DISTRIBUTOR DEVICE
    • 分销商设备
    • US20100290866A1
    • 2010-11-18
    • US12743534
    • 2008-11-14
    • Janne OllilaTom RönnbergAri Ceder
    • Janne OllilaTom RönnbergAri Ceder
    • C21B7/20B65G47/80F27B1/20
    • C21B7/20B65G69/0441F27B1/20F27B3/18F27D3/0025F27D3/0033F27D3/10
    • A distributor device including a distribution chute (3) that extends inside the tank at an inclined angle (a) with respect to the vertical direction for distributing material in the interior of the tank (2). A rotation frame (4) is rotatable around a vertical central rotation axis (L) and includes an essentially vertical inlet channel (5) extending to the interior of the tank (2). The distribution chute (3) is attached to the lower part of said rotation frame, and said inlet channel (5) opens upwardly for receiving any gravitationally moving loose material and downwardly for discharging said loose material to the distribution chute (3) and through the distribution chute further to the tank (1). A circular support frame (6) is horizontally attached to the rotation frame (4), concentrically in relation to the vertical central rotation axis. A number of support rollers (7, 8, 9) are connected to the tank (1) so that the axes (10, 11, 12) of the support rollers are positioned radially with respect to the central rotation axis (L). Said support rollers (7, 8, 9) are arranged in contact with the support frame (6) for supporting the rotation frame on the support rollers, and for bearing mounting the rotation frame to be rotary in relation to the tank. An actuator (13) is arranged to rotate the rotation frame (4). At least one of the support rollers (7, 8, 9) is as a support roller (7) driving the rotation frame, which support roller the actuator (13) is arranged to rotate. The distributor device includes a counterweight (22) attached to the rotation frame (4), on the opposite side of the central rotation axis (L) in relation to the distribution chute (3). The counterweight (22) is arranged to balance the rotation frame (4).
    • 一种分配器装置,包括分配斜槽(3),该分配斜槽(3)相对于垂直方向以倾斜角(a)在罐内延伸,用于在罐(2)的内部分配材料。 旋转框架(4)可围绕竖直中心旋转轴线(L)旋转,并且包括延伸到罐体(2)内部的基本垂直的入口通道(5)。 分配斜槽(3)附接到所述旋转框架的下部,并且所述入口通道(5)向上敞开以接收任何重力移动的松散材料,并且向下用于将所述松散材料排放到分配槽(3)并且通过 分配槽更进一步到罐(1)。 圆形支撑框架(6)相对于垂直中心旋转轴线同心地水平地附接到旋转框架(4)。 多个支撑辊(7,8,9)连接到罐(1),使得支撑辊的轴线(10,11,12)相对于中心旋转轴线(L)径向定位。 所述支撑辊(7,8,9)被布置为与支撑框架(6)接触,用于将支撑辊支撑在支撑辊上,并且用于将旋转框架相对于罐旋转安装。 致动器(13)被布置成使旋转框架(4)旋转。 支撑辊(7,8,9)中的至少一个作为驱动旋转框架的支撑辊(7),支撑辊(8)被布置成旋转。 分配器装置包括相对于分配槽(3)在中心旋转轴线(L)的相对侧上附接到旋转框架(4)的配重(22)。 配重(22)被布置成平衡旋转框架(4)。
    • 3. 发明申请
    • SEALING DEVICE
    • 密封装置
    • US20120126493A1
    • 2012-05-24
    • US13387722
    • 2010-08-03
    • Janne OllilaTom Rönnberg
    • Janne OllilaTom Rönnberg
    • F16J15/02
    • H05B7/12F27D11/10
    • In a sealing device (1) for sealing the through hole of an electrode, the pressurizing medium that generates the pressure of mechanical sealings against a rod electrode structure is an inert gas, such as nitrogen. The means for pressing the created sealing ring (6) against the rod electrode structure (4) include a gas distribution chamber (8) surrounding the sealing ring (6); a first channel (9) that is arranged to provide a flow path for the inert gas in between the hose (14) and the gas distribution chamber (8); an annular groove (10) in the sealing surface (7) of the sealing ring (6); and a second channel (11), which is placed in the sealing ring (6) and is arranged to provide a flow path for the gas from the gas distribution chamber to the groove (10) for extruding the gas in between the sealing surface (7) and the rod electrode structure (4).
    • 在用于密封电极的通孔的密封装置(1)中,产生针对杆电极结构的机械密封的压力的加压介质是惰性气体,例如氮气。 用于将产生的密封环(6)压靠在杆状电极结构(4)上的装置包括围绕密封环(6)的气体分配室(8); 第一通道(9),其设置成为软管(14)和气体分配室(8)之间的惰性气体提供流路; 密封环(6)的密封表面(7)中的环形槽(10); 以及第二通道(11),其被放置在所述密封环(6)中并且被布置成提供用于从所述气体分配室到所述凹槽(10)的气体的流动路径,用于将所述气体挤出在所述密封表面 7)和棒状电极结构(4)。
    • 4. 发明授权
    • Sealing device
    • 密封装置
    • US08960679B2
    • 2015-02-24
    • US13387722
    • 2010-08-03
    • Janne OllilaTom Rönnberg
    • Janne OllilaTom Rönnberg
    • F16J15/02F16J15/46H05B7/12F27D11/10
    • H05B7/12F27D11/10
    • In a sealing device (1) for sealing the through hole of an electrode, the pressurizing medium that generates the pressure of mechanical sealings against a rod electrode structure is an inert gas, such as nitrogen. The means for pressing the created sealing ring (6) against the rod electrode structure (4) include a gas distribution chamber (8) surrounding the sealing ring (6); a first channel (9) that is arranged to provide a flow path for the inert gas in between the hose (14) and the gas distribution chamber (8); an annular groove (10) in the sealing surface (7) of the sealing ring (6); and a second channel (11), which is placed in the sealing ring (6) and is arranged to provide a flow path for the gas from the gas distribution chamber to the groove (10) for extruding the gas in between the sealing surface (7) and the rod electrode structure (4).
    • 在用于密封电极的通孔的密封装置(1)中,产生针对杆电极结构的机械密封的压力的加压介质是惰性气体,例如氮气。 用于将产生的密封环(6)压靠在杆状电极结构(4)上的装置包括围绕密封环(6)的气体分配室(8); 第一通道(9),其设置成为软管(14)和气体分配室(8)之间的惰性气体提供流路; 密封环(6)的密封表面(7)中的环形槽(10); 以及第二通道(11),其被放置在所述密封环(6)中并且被布置成提供用于从所述气体分配室到所述凹槽(10)的气体的流动路径,用于将所述气体挤出在所述密封表面 7)和棒状电极结构(4)。
    • 5. 发明授权
    • Method and arrangement for removing solid particles and tar component from carbon monoxide gas
    • 从一氧化碳气体中除去固体颗粒和焦油成分的方法和装置
    • US08673058B2
    • 2014-03-18
    • US13141064
    • 2009-12-21
    • Tom RönnbergStefan Hajek
    • Tom RönnbergStefan Hajek
    • B01D53/14B01D53/02
    • B01D47/06B01D46/0068B01D50/006B01D51/04B01D53/10B01D2256/20B01D2257/70C10K1/024C10K1/08C10K1/101C21C5/40C21C5/5264Y02P10/216Y02P10/265Y02P10/283
    • A method and arrangement for removing solid particles and tar component from carbon monoxide gas. In the method, carbon monoxide gas is conducted from a ferroalloy smelting furnace (1) to a gas scrubber (2), the carbon monoxide gas is scrubbed in the gas scrubber (2) by a liquid medium for removing part of the solid particles, the carbon monoxide gas is conducted from the gas scrubber to a blower (3), the flow rate of the carbon monoxide gas is increased by the blower (3), and the carbon monoxide gas is conducted to a particulate filter (5) and the remaining solid particles are essentially filtered in the particulate filter (5) from the carbon monoxide gas. Prior to conducting the carbon monoxide gas to the particulate filter (5), it is conducted to a particle feeder (4), where finely divided adsorbent particles (A) are fed in the carbon monoxide gas for adhering the tar component on the surface of the adsorbent particles, and the carbon monoxide gas flow containing adsorbent particles is conducted to the particulate filter (5), in which case the tar component adhered on the adsorbent particles is discharged in the particulate filter (5).
    • 从一氧化碳气体中除去固体颗粒和焦油成分的方法和装置。 在该方法中,一氧化碳气体从铁合金熔炼炉(1)导入气体洗涤器(2),一氧化碳气体通过液体介质在气体洗涤器(2)中洗涤,以除去部分固体颗粒, 一氧化碳气体从气体洗涤器传送到鼓风机(3),通过鼓风机(3)增加一氧化碳气体的流量,一氧化碳气体被传导到颗粒过滤器(5),并且 剩余的固体颗粒基本上在颗粒过滤器(5)中从一氧化碳气体中过滤。 在将一氧化碳气体引入颗粒过滤器(5)之前,将其送入颗粒进料器(4),在颗粒进料器(4)中,将细分的吸附剂颗粒(A)进料到一氧化碳气体中,以将焦油组分粘附在 吸附剂颗粒和含有一氧化碳气体的吸附剂颗粒被传导到颗粒过滤器(5),在这种情况下,附着在吸附剂颗粒上的焦油组分被排放到颗粒过滤器(5)中。