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    • 2. 发明申请
    • A MOULD AND A METHOD OF ITS MANUFACTURE
    • 模具及其制造方法
    • WO2009110833A1
    • 2009-09-11
    • PCT/SE2009/000125
    • 2009-03-05
    • CAMITO ABSVENSSON, ChristerNILSSON, TomasSILLEN, Rudolf
    • SVENSSON, ChristerNILSSON, TomasSILLEN, Rudolf
    • B22D19/16B22C7/02B22D19/06
    • B22D19/16B22C7/023B22C9/22B22D19/06
    • A mould for casting in one piece of a tool with a working component of steel and a body of grey iron with an interconnection zone there between has a first model section (2) corresponding to the working component and a second model section (3) corresponding to the body. The model sections are in contact with one another along a contact plane (4) which is horizontal and planar and which represents the interconnection zone. In a method for producing a mould for one piece casting of a tool with a working component of steel and a body of grey iron with an interconnection zone therebetween, a first model section (2) is produced corresponding to the steel and a second model section corresponding to the grey iron. The model sections are brought into contact with one another with the contact surface horizontally aligned and with the first model section (2) lowermost.
    • 一种用于铸造具有钢的工作部件的工具和其间具有互连区的灰色铁体的模具的模具具有对应于工作部件的第一模型部分(2)和与工作部件相对应的第二模型部分(3) 到身体 模型部分沿着水平和平面的接触平面(4)彼此接触并且表示互连区域。 在具有钢的工作部件和具有相互连接区域的灰口铁体的工具的一体铸造的模具的制造方法中,对应于钢制造第一模型部(2)和第二模型部 对应于灰铁。 模型部分彼此接触,接触表面水平对准,并且第一模型部分(2)最低。
    • 4. 发明申请
    • A MOULD AND A METHOD OF COMPOSITE CASTING OF A ONE PIECE CAST TOOL
    • 一种铸造工具的复合铸造的模具和方法
    • WO2009110832A1
    • 2009-09-11
    • PCT/SE2009/000124
    • 2009-03-05
    • CAMITO ABSVENSSON, ChristerNILSSON, Tomas
    • SVENSSON, ChristerNILSSON, Tomas
    • B22D19/16B21D37/20B22D19/06
    • B22D19/06B22D19/16
    • A mould for one piece casting of a tool, which has a working component (17) of steel and a body (18) of grey iron has a first mould cavity section (4) for the steel and a second mould cavity section (5) for the grey iron, with an interconnection zone therebetween. A dividing plane (3) between the sections (4, 5) is planar and horizontal and located at the interconnection zone. A duct (12) leads from the first section (4) to an accommodation space (11) for possible surplus of steel. In a method for one piece casting of a tool, which has a working component (18) of steel and a body (18) of grey iron with an interconnection zone therebetween, the steel is cast in a first mould cavity section (4) and the grey iron in a second mould cavity section (5). A dividing plane (3) between the mould cavity sections is planar and horizontal. An accommodation space (11) for surplus of steel is provided to permit steel to flow from the first mould cavity section (4) at the level of the dividing plane (3) into the accommodation space.
    • 一种具有钢的工作部件(17)和灰铸铁本体(18)的工具的一次铸造的模具具有用于钢的第一模腔部分(4)和第二模腔部分(5) 对于灰铁,其间具有互连区域。 部分(4,5)之间的分隔平面(3)是平面的并且是水平的并且位于互连区域。 管道(12)从第一部分(4)引导到容纳空间(11),以便可能剩余钢。 在具有钢的工作部件(18)和在其间具有互连区域的灰口铁(18))的工具的一次铸造的方法中,钢被铸造在第一模腔部分(4)中,并且 灰铸铁在第二模腔部分(5)中。 模腔部分之间的分隔平面(3)是平面的和水平的。 提供了用于多余钢的容纳空间(11),以允许钢在分隔平面(3)的高度处从第一模腔部分(4)流入容纳空间。
    • 5. 发明申请
    • TOOL AND METHOD FOR ITS MANUFACTURE
    • 工具及其制造方法
    • WO2003041895A1
    • 2003-05-22
    • PCT/SE2002/002064
    • 2002-11-12
    • INDUSTRIELLT UTVECKLINGSCENTRUM I OLOFSTRÖM ABVOLVO PERSONVAGNAR ABBERG, BengtSVENSSON, Christer
    • BERG, BengtSVENSSON, Christer
    • B22D19/06
    • B22D19/06B21D37/01B21D37/20B21D37/205B22D19/16Y10T83/9309
    • A tool or a part thereof which has at least one tool body (7, 8) and one functional part (9) is cast in one united piece with at least two different casting materials (18, 20) of different material compositions, whereby the different parts of tool possess different material properties. Between the different tool parts, there is a clear interface in the material composition, but an intermingled transitional zone (19) of different material compositions is possible. In a method of manufacturing the tool, or a part thereof, casting material of at least two different material compositions is supplied to different parts (7, 8, 9, respectively) of the tool. The casting materials are kept separate and discrete from one another and, after the casting, there is thus obtained a tool possessing different material properties in different parts (7, 8; 9) of the tool.
    • 具有至少一个工具主体(7,8)和一个功能部件(9)的工具或其一部分与至少两种不同材料组成的不同铸造材料(18,20)一体地铸造,由此 工具的不同部位具有不同的材料特性。 在不同的工具部件之间,材料组成中存在明确的界面,但是可以使用不同材料组成的混合过渡区(19)。 在制造该工具或其一部分的方法中,具有至少两种不同材料组成的铸造材料被提供给工具的不同部件(7,8,9)。 铸造材料彼此分离和离散,并且在铸造之后,由此获得在工具的不同部分(7,8; 9)中具有不同材料性质的工具。
    • 7. 发明申请
    • METHODS AND QAM RECEIVER FOR PERFORMING TIMING RECOVERY
    • 用于执行时序恢复的方法和QAM接收器
    • WO2013041147A1
    • 2013-03-28
    • PCT/EP2011/066597
    • 2011-09-23
    • TELEFONAKTIEBOLAGET L M ERICSSON (PUBL)SVENSSON, Christer
    • SVENSSON, Christer
    • H04L7/00H04L27/38
    • H04L27/066H04L7/0054H04L7/007H04L27/38H04L2027/0024
    • A method in a QAM receiver (100) for performing timing recovery. The QAM receiver (100) is configured to receive a sequence of symbols. Each symbol is represented by a respective IQ pair comprising a respective inphase component I and a respective quadrature component Q. The QAM receiver (100) samples the respective I component and the respective Q component with a relative timing offset between the sampling of the respective I component and the respective Q component. The QAM receiver (100) establishes a first value associated to a quality of the I component samples, and a second value associated to a quality of the Q component samples, and compares the first value and second value to determine if the sampling timing should be advanced or delayed to improve the sample quality. The QAM receiver (100) adjusts subsequent sampling by advancing or delaying a sampling timing based on the comparison.
    • 一种用于执行定时恢复的QAM接收机(100)中的方法。 QAM接收器(100)被配置为接收符号序列。 每个符号由包括相应同相分量I和相应正交分量Q的相应IQ对表示.QAM接收机(100)对相应的I分量和相应的Q分量进行采样,其中相应的I分量和相应的Q分量 组件和相应的Q组件。 QAM接收器(100)建立与I分量样本的质量相关联的第一值,以及与Q分量样本的质量相关联的第二值,并且比较第一值和第二值以确定采样定时是否应当 高级或延迟提高样品质量。 QAM接收器(100)通过基于比较推进或延迟采样定时来调整随后的采样。