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    • 3. 发明申请
    • SOLVENT EXTRACTION SETTLER ARRANGEMENT
    • 溶剂萃取装置
    • WO2014199007A1
    • 2014-12-18
    • PCT/FI2014/050425
    • 2014-05-28
    • OUTOTEC (FINLAND) OY
    • VAARNO, JussiSAARIO, RamiFREDRIKSSON, Henri
    • B01D21/02B01D11/04C22B3/02C22B3/20
    • C22B3/02B01D11/0446B01D17/0208B01D17/0211B01D17/0214B01D17/04B01D21/10B01D21/2444C02F1/40C02F2103/16C22B3/00C22B3/16C22B3/20C22B3/22C22B15/0065C22B15/0082Y02P10/234
    • In a solvent extraction settler arrangement the outlet box (11) comprises an inner tube (18) arranged vertically inside a shaft (12), the inner tube being spaced from the side wall (13) of the shaft (12) to define an intermediate space (19) between the inner tube and the shaft. The inner tube (18) has an inner space (20) and an opening (21) at the lower part of the inner tube adjacent the bottom to form a flow path for the heavy solution phase to flow to the inner space (20). The shaft (12) comprises a second outlet (22) which is separate in relation to the discharge outlet (17) and above the level of the discharge outlet (17). The second outlet (22) opens through the side wall (13) to the intermediate space (19) at a location adjacent to the upper end of the shaft (12) and at the level of said layer (5) of entrained light solution phase for discharging said layer of entrained light solution phase from the intermediate space. The heavy solution phase (4) is discharged via the discharge outlet (17). The layer (5) of entrained light solution phase is discharged via the second outlet (22).
    • 在溶剂提取沉降器布置中,出口箱(11)包括在轴(12)内垂直设置的内管(18),内管与轴(12)的侧壁(13)间隔开,以限定中间 内管和轴之间的空间(19)。 内管(18)在内管的下部邻近底部具有内部空间(20)和开口(21),以形成用于重溶液相流向内部空间(20)的流动路径。 轴(12)包括相对于排放出口(17)分离并且高于排放出口(17)的高度的第二出口(22)。 第二出口(22)在与轴(12)的上端相邻的位置处并且在夹带的光溶液相的所述层(5)的水平处通过侧壁(13)穿过中间空间(19) 用于从中间空间排出所夹带的光溶液相。 重溶液相(4)通过排出口(17)排出。 夹带的光溶液相的层(5)经由第二出口(22)排出。
    • 6. 发明申请
    • A METHOD OF MANUFACTURING AN ELBOW CHANNEL AND AN ELBOW CHANNEL
    • 制造ELBOW通道和ELBOW通道的方法
    • WO2014199006A1
    • 2014-12-18
    • PCT/FI2014/050422
    • 2014-05-28
    • OUTOTEC (FINLAND) OY
    • VAARNO, JussiSAARIO, RamiFREDRIKSSON, Henri
    • B29C53/56B29C65/00B29C70/32B29D23/00C22B3/02B01D11/04
    • F16L43/008B01D11/0446B29C53/56B29C53/66B29C65/5042B29C66/11B29C66/1162B29C66/52231B29C66/721B29C70/32B29D23/006B29L2031/243
    • A method of manufacturing an elbow channel (1) with an elbow angle (a). The method comprises manufacturing an elongated filament-reinforced plastic composite hollow body (2) by a filament winding technology; miter-cutting the elongated hollow body (2) at a cut angle (a/2), which is half of the desired elbow angle (a), to form a first body piece (3) having an oblique first end (4), and a second body piece (5) having an oblique second end (6); placing the first body piece (3) and the second body piece (5) in relation to each other to abut the first end (4) and the second end (6) against each other, so that the longitudinal symmetry axes (x) of the first and second body pieces are at said elbow angle (a) to each other; and attaching the first end (4) and the second end (6) to each other to form said elbow channel. The elbow channel (1) is formed from first and second hollow body pieces (3, 5) which are miter cut at a cut angle (a/2) from an elongated filament-wound filament-reinforced plastic composite hollow body (2), the hollow body pieces (3, 5) being connected to each other at their miter cut first and second oblique ends (4, 6) to form the elbow channel.
    • 制造具有肘角(a)的肘管(1)的方法。 该方法包括通过细丝缠绕技术制造细长纤维增强塑料复合中空体(2); 以长度为所需肘角(a)的一半的切割角度(a / 2)将细长型中空体(2)切割成切口,以形成具有倾斜的第一端(4)的第一主体部件(3) 和具有倾斜的第二端(6)的第二体片(5)。 将第一主体部件(3)和第二主体部件(5)彼此相对地相对于第一端部(4)和第二端部(6)彼此抵靠,使得纵向对称轴线(x) 第一和第二体片彼此处于所述肘角(a); 以及将所述第一端(4)和所述第二端(6)彼此附接以形成所述弯头通道。 肘形通道(1)由从细长丝缠绕的细丝增强塑料复合中空体(2)以切割角度(a / 2)斜切的第一和第二中空本体片(3,5)形成, 所述中空体部件(3,5)以它们的斜切第一和第二倾斜端(4,6)彼此连接以形成所述弯头通道。
    • 7. 发明申请
    • A DRIVE SUPPORTING STRUCTURE AND A DRIVE SUPPORT ELEMENT
    • 驱动支持结构和驱动支持元件
    • WO2014184434A2
    • 2014-11-20
    • PCT/FI2014/050350
    • 2014-05-12
    • OUTOTEC (FINLAND) OY
    • HAUTANIEMI, TimoSAARIO, RamiFREDRIKSSON, HenriPAJALA, Jussi
    • B01J19/00
    • F16M13/02B01F7/002B01F7/16B01F15/00448B01F2015/00603B01J19/0066
    • The invention relates to a drive supporting structure (1) for a tank (2). The drive supporting structure (1) comprises a drive support element (3) for supporting a drive (30) and a support beam structure (4) for supporting the drive support element (3). The support beam structure (4) is arranged on top side of the tank (2) and comprises multiple support beams (5). The drive support element (3) comprises housing (6), which said housing (6) is fabricated by casting. The support beam structure (4) is detachably connected to the drive support element (3) for forming a connection between the drive support element (3) and the support beam structure (4). The invention further relates to a drive support element (3) for supporting a drive in a tank (2). The drive support element (3) comprises housing (6), which is fabricated by casting.
    • 本发明涉及一种用于罐(2)的驱动支撑结构(1)。 驱动支撑结构(1)包括用于支撑驱动器(30)的驱动支撑元件(3)和用于支撑驱动支撑元件(3)的支撑梁结构(4)。 支撑梁结构(4)布置在罐(2)的顶侧,并且包括多个支撑梁(5)。 驱动支撑元件(3)包括壳体(6),所述壳体(6)通过铸造制造。 支撑梁结构(4)可拆卸地连接到驱动支撑元件(3),用于在驱动支撑元件(3)和支撑梁结构(4)之间形成连接。 本发明还涉及一种用于将驱动器支撑在罐(2)中的驱动支撑元件(3)。 驱动支撑元件(3)包括通过铸造制造的壳体(6)。