会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明授权
    • Modular kit for a wind turbine tower
    • 用于风力发电机塔的模块化套件
    • US08146320B2
    • 2012-04-03
    • US10530142
    • 2003-09-30
    • Marc SeidelMartin Von MutiusUlrich Uphues
    • Marc SeidelMartin Von MutiusUlrich Uphues
    • E04H12/02E04C3/30
    • E04H12/16E04H12/08F03D13/20F05B2240/40F05B2240/912F05B2250/231F05B2250/232Y02E10/728
    • The modular kit for a tower has a height ranging between a minimum height and a maximum height, in particular for a wind energy turbine, comprises a first conical tower segment (10) comprising a steel tube having a predetermined length (11), a second conical tower segment (12) comprising a steel tube having a predetermined length (12), and a first cylindrical tower segment (14) comprising a steel tube having a length between a predetermined minimum length and a predetermined maximum length. The length of the first cylindrical tower segment (14) can be adapted to the necessary height of the tower between its minimum height and its maximum height. The minimum height is the sum of the predetermined lengths (11,12) of the first and second conical tower segments (10,12) and the minimum length of the first cylindrical tower segment (14). The maximum height is the sum of the predetermined lengths (11,12) of the first and second conical tower segments (10,12) and the maximum length of the first cylindrical tower segment (14).
    • 用于塔架的模块化组件具有在最小高度和最大高度之间的高度,特别是对于风力涡轮机,包括第一锥形塔架段(10),其包括具有预定长度(11)的钢管,第二锥形塔架段 包括具有预定长度(12)的钢管的锥形塔段(12)和包括长度在预定最小长度和预定最大长度之间的长度的钢管的第一圆柱形塔架段(14)。 第一圆柱形塔段(14)的长度可以适应塔的最小高度和最大高度之间的必要高度。 最小高度是第一和第二锥形塔段(10,12)的预定长度(11,12)和第一圆柱形塔架段(14)的最小长度之和。 最大高度是第一和第二锥形塔段(10,12)的预定长度(11,12)和第一圆柱形塔架段(14)的最大长度之和。
    • 4. 发明申请
    • Modular kit for a wind turbine tower
    • 用于风力发电机塔的模块化套件
    • US20060225379A1
    • 2006-10-12
    • US10530142
    • 2003-09-30
    • Marc SeidelMartin Von MutiusUlrich Uphues
    • Marc SeidelMartin Von MutiusUlrich Uphues
    • E04C3/30E04B1/00
    • E04H12/16E04H12/08F03D13/20F05B2240/40F05B2240/912F05B2250/231F05B2250/232Y02E10/728
    • The modular kit for a tower has a height ranging between a minimum height and a maximum height, in particular for a wind energy turbine, comprises a first conical tower segment (10) comprising a steel tube having a predetermined length (11), a second conical tower segment (12) comprising a steel tube having a predetermined length (12), and a first cylindrical tower segment (14) comprising a steel tube having a length between a predetermined minimum length and a predetermined maximum length. The length of the first cylindrical tower segment (14) can be adapted to the necessary height of the tower between its minimum height and its maximum height. The minimum height is the sum of the predetermined lengths (11,12) of the first and second conical tower segments (10,12) and the minimum length of the first cylindrical tower segment (14). The maximum height is the sum of the predetermined lengths (11,12) of the first and second conical tower segments (10,12) and the maximum length of the first cylindrical tower segment (14).
    • 用于塔架的模块化组件具有在最小高度和最大高度之间的高度,特别是对于风力涡轮机,包括第一锥形塔架段(10),其包括具有预定长度(11)的钢管,第二锥形塔架段 包括具有预定长度(12)的钢管的锥形塔段(12)和包括长度在预定最小长度和预定最大长度之间的长度的钢管的第一圆柱形塔架段(14)。 第一圆柱形塔段(14)的长度可以适应塔的最小高度和最大高度之间的必要高度。 最小高度是第一和第二锥形塔段(10,12)的预定长度(11,12)和第一圆柱形塔架段(14)的最小长度之和。 最大高度是第一和第二锥形塔段(10,12)的预定长度(11,12)和第一圆柱形塔架段(14)的最大长度之和。
    • 6. 发明授权
    • Method for the operation of a wind power plant
    • 风力发电厂运行方法
    • US08764393B2
    • 2014-07-01
    • US12663718
    • 2008-04-28
    • Martin Von MutiusJens AltemarkAlf Trede
    • Martin Von MutiusJens AltemarkAlf Trede
    • F03D11/00
    • F03D7/0264F03D17/00F03D80/50F05B2230/80F05B2270/32F05B2270/321Y02E10/723Y02P70/523
    • A method for operating a wind power plant (WEA) before or during the performance of maintenance work on the wind power plant (WEA). At least one physical condition of the surroundings outside the wind power plant (WEA) induced by wind movement outside the wind power plant (WEA) is detected as an external physical condition. At least one physical condition of a component of the wind power plant (WEA) influenced by wind movement outside the wind power plant (WEA) is detected as an internal physical condition. The at least one external physical condition and/or at least one internal physical condition are evaluated. The at least one external physical condition is compared with a predetermined reference value for the external physical condition. The at least one internal physical condition is compared with a predetermined reference value for the internal physical condition. Depending on the comparison, at least one warning message is generated.
    • 在风力发电厂(WEA)进行维护工作之前或期间操作风力发电厂(WEA)的方法。 作为外部物理条件,检测到风力发电厂(WEA)外的风动作用引起的风力发电厂(WEA)外的环境的至少一个物理状况。 作为内部物理条件,检测到风力发电厂(WEA)以外的风动影响的风力发电厂(WEA)的部件的至少一个物理状况。 评估至少一个外部物理条件和/或至少一个内部物理条件。 将至少一个外部物理条件与外部物理条件的预定参考值进行比较。 将至少一个内部物理条件与内部物理条件的预定参考值进行比较。 根据比较,生成至少一个警告消息。
    • 7. 发明申请
    • Wind turbine in parked position
    • 风力发电机处于停放位置
    • US20060099075A1
    • 2006-05-11
    • US10499289
    • 2002-12-20
    • Martin Von Mutius
    • Martin Von Mutius
    • B64C11/28
    • F03D7/024F03D7/0224F03D7/0268F03D7/0296F05B2260/74F05B2260/76Y02E10/723
    • The invention relates to a method for operating a wind power plant with a rotor and with at least two rotor blades rotatable about a common rotor axis in a rotor blade plane, whereof each can be swivelled about a swivel axis which is roughly parallel to its longitudinal axis approximately perpendicular to the rotor axis, in which the setting or pitch angels of the rotor blades are set with respect to the rotor blade plane as a function of the operating and in particular wind conditions, in which the pitch angels of at least two rotor blades in a parking position of the rotor, in which rotor rotation about the rotor axis is decelerated, are set to different values.
    • 本发明涉及一种用于操作具有转子的风力发电设备的方法,并且至少两个转子叶片可围绕转子叶片平面中的公共转子轴线旋转,每个转子叶片可围绕大致平行于其纵向的旋转轴线旋转 大致垂直于转子轴线的轴线,其中转子叶片的设定或俯仰角度相对于转子叶片平面设定为作业的运行特别是风力条件的函数,其中至少两个转子的俯仰角度 将转子绕转子轴线旋转的转子的转子的停转位置的叶片设定为不同的值。
    • 8. 发明申请
    • METHOD FOR THE OPERATION OF A WIND POWER PLANT
    • 风力发电厂运行方法
    • US20100183440A1
    • 2010-07-22
    • US12663718
    • 2008-04-28
    • Martin Von MutiusJens AltemarkAlf Trede
    • Martin Von MutiusJens AltemarkAlf Trede
    • F03D7/00F03D11/00
    • F03D7/0264F03D17/00F03D80/50F05B2230/80F05B2270/32F05B2270/321Y02E10/723Y02P70/523
    • The invention concerns a method for operating a wind power plant (WEA), preferably before or during the performance of maintenance work on the wind power plant (WEA), wherein —at least one physical condition of the surroundings outside the wind power plant (WEA) induced by wind movement outside the wind power plant (WEA) is detected as an external physical condition, and/or at least one physical condition of a component of the wind power plant (WEA) influenced by wind movement outside the wind power plant (WEA) is detected as an internal physical condition; —the at least one external physical condition and/or at least one internal physical condition are evaluated; —the at least one external physical condition is compared with a predetermined reference value for the external physical condition, and/or the at least one internal physical condition is compared with a predetermined reference value for the internal physical condition; —depending on the comparison at least one warning message is generated, in particular a maintenance warning message.
    • 本发明涉及一种用于操作风力发电设备(WEA)的方法,优选在对风力发电厂(WEA)进行维护工作之前或期间进行操作,其中至少一个风力发电厂外部的环境(WEA) 被检测为风力发电厂(WEA)外的风动作用引起的外部物理状况,和/或风力发电厂(WEA)的部件的至少一个物理状况受风力发电厂外的风动作影响 WEA)被检测为内部物理条件; - 评估至少一个外部身体状况和/或至少一个内部身体状况; 将至少一个外部物理条件与外部物理条件的预定参考值进行比较,和/或将至少一个内部物理条件与内部物理条件的预定参考值进行比较; 根据比较,生成至少一个警告消息,特别是维护警告消息。
    • 9. 发明申请
    • METHOD FOR OPERATING A WIND ENERGY INSTALLATION AND A WIND ENERGY INSTALLATION
    • 用于操作风能安装和风能安装的方法
    • US20090295161A1
    • 2009-12-03
    • US12160511
    • 2007-01-04
    • Stefan SteinerMartin Von Mutius
    • Stefan SteinerMartin Von Mutius
    • H02P9/04
    • F03D7/042F03D7/0224F03D7/0244F05B2270/1011F05B2270/107F05B2270/322F05B2270/327Y02E10/723
    • The invention relates to a method for operating a wind energy installation (10), in which the wind energy installation (10) has a rotor (12, 13, 22), at least one rotor blade (14) with an adjustable angle, a mechanical brake device (19) for braking the rotor (14), an operational control device (15, 15′) and a safety system (16, 20). The invention also relates to a corresponding wind energy installation (10). The method according to the invention is defined by the following method steps: braking of the rotor (12, 13, 22) by means of an angular adjustment (28) with an average angular adjustment rate of less than 8.5°/s of the at least one rotor blade (14) after a fault signal (30) occurs, braking of the rotor (12, 13, 22) by means of the mechanical brake device (19) as soon as the rotational speed of the rotor (12, 13, 22) exceeds a predefinable first rotational speed limit, and triggering of the safety system (16, 20) as soon as the rotational speed of the rotor (12, 13, 22) exceeds a predefinable second rotational speed limit.
    • 本发明涉及一种用于操作风能设备(10)的方法,其中风力设备(10)具有转子(12,13,22),至少一个具有可调角度的转子叶片(14) 用于制动转子(14)的机械制动装置(19),操作控制装置(15,15')和安全系统(16,20)。 本发明还涉及相应的风能装置(10)。 根据本发明的方法通过以下方法步骤来限定:通过角度调节(28)制动转子(12,13,22),平均角度调整率小于每秒的8.5°/ s 在发生故障信号(30)之后的至少一个转子叶片(14),一旦转子(12,13)的旋转速度一直通过机械制动装置(19)制动转子(12,13,22) ,22)超过预定义的第一转速限制,并且一旦所述转子(12,13,22)的转速超过预定义的第二转速限制,则触发所述安全系统(16,20)。