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    • 1. 发明申请
    • APPARATUS FOR SEPARATION INCLUDING MEANS FOR CONTROLLED OUTPUT
    • 用于分离的装置,包括用于控制输出的装置
    • WO1998015334A1
    • 1998-04-16
    • PCT/SE1997001680
    • 1997-10-07
    • SPIRAC ENGINEERING ABBRUKE, Richard
    • SPIRAC ENGINEERING AB
    • B01D21/24
    • E03F5/14B01D21/0012B01D21/0039B01D21/02B01D21/183B01D21/2444B01D21/2461
    • An apparatus for removing bodies (61) from a flowing liquid (60a) comprising a rotary conveyor helix (3) disposed in a path (7) which is formed by a casing (17). The apparatus has a lower portion (10) which forms a screening device (40) and an upper portion (11) which forms a discharge portion (11) with a discharge aperture (14). Drive means (30) rotate the conveyor helix. The lower portion includes a portion (40) with a counter-currently facing aperture in which portion the casing forms the screening device (40). The conveyor helix (3) terminates a distance from the discharge aperture (14). Between the end (34) of the conveyor helix (3) and the upper end (13) of the casing (17), there is formed a helix-free zone (16) in which are accumulated bodies which, by the conveyor helix (3), are displaced from the lower portion (10) of the apparatus. The discharge aperture (14) is provided with a mechanical abutment (50) for controlled opening and closing of the discharge aperture and thereby control of the compression of the matter accumulated in the helix-free zone.
    • 一种用于从流动液体(60a)移除主体(61)的装置,包括设置在由壳体(17)形成的路径(7)中的旋转传送螺旋(3)。 该装置具有形成筛分装置(40)的下部(10)和形成具有排出孔(14)的排出部分(11)的上部(11)。 驱动装置(30)旋转输送螺旋。 下部包括具有相对于面对的孔的部分(40),其中壳体形成筛分装置(40)的部分。 输送螺旋(3)终止与排放孔(14)的距离。 在输送螺旋(3)的端部(34)和壳体(17)的上端(13)之间形成无螺旋区域(16),其中是通过输送螺旋 3)从设备的下部(10)移位。 排放孔(14)设置有用于受控地打开和关闭排放孔的机械支座(50),从而控制积聚在无螺旋区中的物质的压缩。
    • 3. 发明申请
    • A METHOD AND APPARATUS FOR SEPARATION
    • 一种用于分离的方法和装置
    • WO1985002794A1
    • 1985-07-04
    • PCT/SE1984000434
    • 1984-12-19
    • SPIRAC ENGINEERING ABJOHANSSON, Dag
    • SPIRAC ENGINEERING AB
    • B07B01/50
    • E02B8/026
    • Method and apparatus for separating, from a liquid flow (60), solid particles entrained in the flow. A grid screen (10) is disposed in the liquid flow and is provided with spaced-apart bars which trap the particles, there being thereby formed so-called screenings. A first, lower scraper member (40) is disposed for a reciprocal vertical movement along the screen grid and abuts, during its upward stroke, against the grid, screenings collected against the screen grid conveyed to a shoulder like portion (22) for temporary storage of the screenings. A subsequent, upper scraper member (50) conveys the screenings in a direction towards a receptacle (70). The screenings are de-watered when in position on the shoulder-like portion and, as a rule, also as a consequence of being moved in a direction towards the receptacle along a slip plate (21). The construction comprising more than one screening members reduces vertical space requirements and makes possible the individual adaptaton of the scraper members to meet prevailing functional demands.
    • 用于从液体流(60)中分离夹带在流中的固体颗粒的方法和装置。 格栅(10)设置在液体流中并且设置有间隔开的条,其捕获颗粒,由此形成所谓的筛选。 第一个下刮板构件(40)设置成沿屏幕网格的往复垂直运动,并且在其向上行程期间抵靠栅格邻接,筛网收集在输送到肩部类似部分(22)的筛网上,用于临时存储 的放映。 随后的上刮板构件(50)沿着朝向容器(70)的方向传送筛选。 当在肩状部分上的位置时,筛分被去水,并且通常也是沿着滑板(21)沿朝向容器的方向移动的结果。 包括多个筛选构件的结构降低了垂直空间要求,并且使刮板构件的个体适应性可以满足主要的功能需求。
    • 4. 发明申请
    • SEPARATOR
    • 分隔器
    • WO1992001516A1
    • 1992-02-06
    • PCT/SE1991000499
    • 1991-07-17
    • SPIRAC ENGINEERING ABBRUKE, Richard
    • SPIRAC ENGINEERING AB
    • B03D01/14
    • B03B11/00B01D17/0214B01D21/2433B03B5/28B03B5/40
    • The invention relates to a method and an apparatus for separating and removing, from a liquid, bodies (51) of a density which is less than the density of the liquid. The liquid containing the bodies is supplied to a container whose walls are oriented such that the bodies, on upward flotation to the liquid surface, guide the bodies so that they are concentrated to an area where mechanical devices (26) remove the bodies from the container in association with a first end region (15) thereof. The liquid is removed from the container via an outlet (31) located on a lower level than the lowest level of the upper defining edge of the end region. The apparatus for separation and removal of such bodies includes a container (10) whose defining walls form a storage space, which, in the horizontal plane, is of slight cross-sectional area in that region where the mechanical device (26), as a rule, a conveyor screw, is disposed for removing bodies which have floated up to the liquid surface.
    • 本发明涉及一种用于从液体中分离和除去密度小于液体密度的体(51)的方法和装置。 将容纳物体的液体供应到其壁定向的容器,使得主体向上浮动到液体表面引导体,使得它们集中到机械装置(26)将物体从容器中取出的区域 与其第一端部区域(15)相关联。 液体经由位于比端部区域的上部限定边缘的最下层更低的出口(31)从容器中移出。 用于分离和移除这种主体的装置包括:容器(10),其限定壁形成储存空间,该储存空间在水平面中在机械装置(26)的区域中具有微小的横截面面积 规则,输送螺杆被设置用于去除已经浮起到液体表面的主体。
    • 5. 发明申请
    • A TRANSPORTATION DEVICE
    • 运输设备
    • WO1988009301A1
    • 1988-12-01
    • PCT/SE1988000264
    • 1988-05-19
    • SPIRAC ENGINEERING ABBRUKE, Richard
    • SPIRAC ENGINEERING AB
    • B65G33/14
    • B65G33/32B65G33/14
    • In a casing (10) is arranged a spiral (11) which is driven by a driving arrangement (14, 15) located in the end of the casing where a feed opening (12) is located. The discharge section (16) of the casing and the free end of the spiral are directed from the side towards the centre axis of a substantially vertically oriented casing (20) enclosing a shaftless spiral (21). A driving arrangement (24, 25) rotates the vertically oriented spiral which in its upper part has a free end and terminates adjacent to a discharge opening (27) which is located in the extension of the casing. The combination (2) of vertically directed casing and shaftless spiral is dimensioned so that its conveying capacity exceeds the conveying capacity of the substantially horizontally oriented combination of casing and shaftless spiral.
    • 在壳体(10)中布置有由位于壳体的位于进料口(12)的端部的驱动装置(14,15)驱动的螺旋(11)。 壳体的排出部分(16)和螺旋的自由端从包围无轴螺旋(21)的大致垂直取向的壳体(20)的侧面朝向中心轴线引导。 驱动装置(24,25)旋转垂直取向的螺旋,其上部具有自由端,并且邻近位于壳体的延伸部中的排出口(27)终止。 垂直定向套管和无轴螺旋的组合(2)的尺寸使得其输送能力超过基本上水平定向的套管和无轴螺旋组合的输送能力。
    • 7. 发明申请
    • CONTAINER
    • 容器
    • WO1992017390A1
    • 1992-10-15
    • PCT/SE1992000205
    • 1992-04-01
    • SPIRAC ENGINEERING ABBRUKE, Richard
    • SPIRAC ENGINEERING AB
    • B65D88/54
    • B65G65/32
    • A self-filling container (10) for the storage and/or transport of goods, primarily bulk goods or bulk cargo, includes a conveyor (20) which is disposed in the upper region (12) of the container. The conveyor includes a conveyor screw (21) with an infeed opening (22) which is accessible from the surroundings of the container. The conveyor screw is provided with a discharge opening (23) which is in communication with the storage space (13) of the container. The present invention includes a method of filling the container (10) with cargo in that the cargo is supplied to the conveyor (20) via its infeed opening (22) and displaced by the conveyor screw to the storage space (13) of the container by discharging the cargo in a region adjacent the upper bounding definition of the storage space.
    • 用于储存和/或运输货物(主要是散装货物或散装货物)的自填充容器(10)包括设置在容器的上部区域(12)中的输送机(20)。 输送机包括具有可从容器周围接近的进料口(22)的输送螺杆(21)。 输送螺杆设置有与容器的储存空间(13)连通的排出口(23)。 本发明包括一种用货物填充容器(10)的方法,其中货物通过其进料开口(22)供给到输送机(20),并由输送螺杆移动到容器的储存空间(13) 通过在与存储空间的上限定义相邻的区域中排出货物。
    • 9. 发明申请
    • APPARATUS FOR SCREENING
    • 用于筛选的装置
    • WO1998015336A1
    • 1998-04-16
    • PCT/SE1997001682
    • 1997-10-07
    • SPIRAC ENGINEERING ABBRUKE, Richard
    • SPIRAC ENGINEERING AB
    • B01D21/24
    • B30B9/18B01D21/0003B01D29/356B01D29/6415B01D29/6476B01D29/78B01D29/828B01D29/94B30B9/121B30B9/128E03F5/14
    • An apparatus for removing bodies (41) from a liquid (40) in which the apparatus includes a first container (1) which is provided with an inlet (13) through which the liquid is supplied to the first container, and a second container (2) which, in the lower region (35) of the apparatus, surrounds the first container. Between the wall (17) of the first container and the wall (27) of the second container, there is formed a space (26). The wall of the first container is provided with passages (15) through which liquid passes from the first container to the space (26). The passages (15) are dimensioned so as to separate bodies (41) transported by the liquid towards the inside of the wall (17) of the first container. A helix (3) is disposed in a path (7) which is formed by the wall of the first container and is oriented at an angle ( alpha ) to the horizontal plane. On rotation of the helix, the separated bodies are displaced in the longitudinal direction of the path to a discharge aperture (14) in the upper region (11) of the first container (1).
    • 一种用于从液体(40)中移出主体(41)的装置,其中装置包括第一容器(1),第一容器(1)设有入口(13),液体通过该入口提供给第一容器,第二容器 在设备的下部区域(35)中,其包围第一容器。 在第一容器的壁(17)和第二容器的壁(27)之间形成有空间(26)。 第一容器的壁设置有通道(15),液体通过该通道从第一容器通过空间(26)。 通道(15)的尺寸被设计成将由液体输送的主体(41)分离成朝向第一容器的壁(17)的内部。 螺旋(3)设置在由第一容器的壁形成并且以与水平面成α角的方向定向的路径(7)中。 在螺旋线旋转时,分离的主体在通向第一容器(1)的上部区域(11)中的排放孔(14)的路径的纵向方向上移位。
    • 10. 发明申请
    • AN APPARATUS FOR SEPARATING SOLID MATTER FROM A LIQUID
    • 用于从液体中分离固体的装置
    • WO1995024306A1
    • 1995-09-14
    • PCT/SE1995000223
    • 1995-03-03
    • SPIRAC ENGINEERING ABBISCHOF, Rudolf
    • SPIRAC ENGINEERING AB
    • B30B09/14
    • B30B9/12
    • The invention relates to an apparatus for separating solid matter from a liquid which carries solid matter. The apparatus has a rotatably driven conveyor spiral (1), which, at least in part regions, is disposed in a screen jacket which corresponds to the outer contour of the conveyor spiral (1) which, with one end, projects into a container filled with the liquid, for example a gutter or channel and, at its opposing end, displays a discharger via which the discharged solid matter may be fed to a transport container, a sack filling machine or the like. A compression zone (2) for compressing the solid matter is disposed at the end facing towards the discharger. An apparatus of this type makes possible shorter construction length and, at the same time, improved discharge of the solid matter to the side or upwards is achieved in that the per se known compression zone (2) consists of a substantially hollow cylindrical jacket (3) in whose interior space a rotatably driven discharge device (4) is disposed for discharging the solid matter in the lateral direction, i.e. substantially tangentially to the conveyor spiral (1). The apparatus consists of a substantially cylindrically designed shaft and at least one discharge element (8) radially disposed in relation thereto and by means of which the solid matter compressed in the compression zone (2) is conveyed substantially radially to the conveyor spiral (1).
    • 本发明涉及一种从携带固体物质的液体中分离固体物质的装置。 该设备具有可旋转地驱动的输送螺旋(1),其至少部分地区域布置在屏蔽套中,该屏蔽套对应于输送螺旋(1)的外轮廓,其一端投射到容器中 与液体,例如沟槽或通道,并且在其相对的端部处,显示排出的固体物质可通过该排出器输送到运输容器,袋装灌装机等。 用于压缩固体物质的压缩区域(2)设置在朝向排放器的一端。 这种装置可以缩短施工长度,同时,通过本身已知的压缩区(2)由基本上中空的圆柱形夹套(3)组成,同时改善固体物质向侧面或向上的排放 ),其内部空间设置有旋转驱动的排出装置(4),用于沿横向排出固体物质,即基本上与输送螺旋(1)相切。 该装置由基本上圆柱形设计的轴和至少一个相对于其径向设置的排放元件(8)组成,借助于该压缩区(2)中被压缩的固体物质基本径向被输送到输送螺旋(1) 。