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
    • 1. 发明申请
    • PULSE-ECHO METHOD BY MEANS OF AN ARRAY-TYPE PROBE AND TEMPERATURE COMPENSATION
    • 脉冲式方法通过阵列式探头和温度补偿
    • US20110247417A1
    • 2011-10-13
    • US13062032
    • 2009-09-07
    • York OberdoerferMichael BerkeWolf-Dietrich KleinertJerome PoirierSascha Schieke
    • York OberdoerferMichael BerkeWolf-Dietrich KleinertJerome PoirierSascha Schieke
    • G01N29/07
    • G01N29/07G01N29/221G01N29/2468G01N29/2487G01N29/262G01N29/326
    • The invention relates to a nondestructive ultrasonic test method in which at least one ultrasonic pulse is emitted into a workpiece under test by means of at least one ultrasonic transmitter (3), the ultrasonic pulse is reflected on boundary surfaces within the workpiece, the reflected ultrasound is received by at least one ultrasonic receiver (2), and the associated signals are evaluated, the ultrasound penetrating a damping block (4) that is arranged between the workpiece and the transmitter or receiver. Said method is characterized in that it includes at least one step for determining the sound velocity in the damping block (4) by means of an array-type probe (1) comprising selectively controllable transducers; in said step, at least one first transducer (3) of the array-type probe (1) is used as the transmitter of at least one ultrasonic pulse, while at least one second transducer (2) of the array-type probe (1) is used as the receiver of the ultrasonic pulse, and the sound velocity in the damping block (4) is determined at least by measuring the propagation time of the ultrasound along the shortest distance (e1, e2) of the ultrasound between the respective transducers (2, 3) that are placed at a distance from each other.
    • 本发明涉及一种非破坏性超声波测试方法,其中至少一个超声波脉冲通过至少一个超声波发射器(3)发射到被测工件中,超声脉冲反射在工件内的边界表面上,反射超声波 由至少一个超声波接收器(2)接收,并且相关联的信号被评估,超声波穿过布置在工件和发射器或接收器之间的阻尼块(4)。 所述方法的特征在于,它包括至少一个步骤,用于通过包括有选择地可控制的换能器的阵列式探头(1)来确定阻尼块(4)中的声速; 在所述步骤中,阵列式探头(1)的至少一个第一换能器(3)用作至少一个超声脉冲的发射器,而阵列型探头(1)的至少一个第二换能器 )用作超声波脉冲的接收器,并且至少通过测量超声波在各个换能器之间的最小距离(e1,e2)上的最短距离(e1,e2)的传播时间来确定阻尼块(4)中的声速 (2,3),它们彼此相距一定距离。
    • 2. 发明授权
    • Pulse-echo method by means of an array-type probe and temperature compensation
    • 脉冲回波法采用阵列型探头和温度补偿
    • US08770027B2
    • 2014-07-08
    • US13062032
    • 2009-09-07
    • York OberdoerferMichael BerkeWolf-Dietrich KleinertJerome PoirierSascha Schieke
    • York OberdoerferMichael BerkeWolf-Dietrich KleinertJerome PoirierSascha Schieke
    • G01N29/07G01N29/32
    • G01N29/07G01N29/221G01N29/2468G01N29/2487G01N29/262G01N29/326
    • The invention relates to a nondestructive ultrasonic test method in which at least one ultrasonic pulse is emitted into a workpiece under test by at least one ultrasonic transmitter (3), the ultrasonic pulse is reflected on boundary surfaces within the workpiece, the reflected ultrasound is received by at least one ultrasonic receiver (2), and the associated signals are evaluated, the ultrasound penetrating a damping block (4) that is arranged between the workpiece and the transmitter or receiver. The method is characterized in that it includes at least one step for determining at least one dimension (alpha, d1, d2) of the damping block (4) that is relevant for the ultrasonic test; in said step, the propagation time of at least one ultrasonic pulse which is generated by the ultrasonic transmitter (3), is reflected on a boundary surface (5) of the damping block (4), and is received by the ultrasonic receiver (2) is measured, and at least one dimension (alpha, d1, d2) of the damping block (4) that is relevant for the ultrasonic test is determined from the measurement.
    • 本发明涉及一种非破坏性超声波测试方法,其中至少一个超声波脉冲由至少一个超声波发射器(3)发射到被测工件中,超声波脉冲被反射在工件内的边界表面上,反射的超声波被接收 通过至少一个超声波接收器(2),并且评估相关联的信号,超声波穿过布置在工件和发射器或接收器之间的阻尼块(4)。 该方法的特征在于,它包括用于确定与超声波测试相关的阻尼块(4)的至少一个尺寸(α,d1,d2)的至少一个步骤; 在所述步骤中,由超声波发送器(3)产生的至少一个超声波脉冲的传播时间被反射在阻尼块(4)的边界面(5)上,并被超声波接收器(2)接收 ),并且从测量确定与超声波测试相关的阻尼块(4)的至少一个尺寸(α,d1,d2)。
    • 3. 发明授权
    • Pulse-echo method for determining the damping block geometry
    • 用于确定阻尼块几何的脉冲回波方法
    • US08739630B2
    • 2014-06-03
    • US13062221
    • 2009-09-07
    • York OberdoerferMichael BerkeWolf-Dietrich KleinertJerome PoirierSascha Schieke
    • York OberdoerferMichael BerkeWolf-Dietrich KleinertJerome PoirierSascha Schieke
    • G01N29/07G01N29/32
    • G01N29/2468G01N29/07G01N29/32
    • The invention relates to a nondestructive ultrasonic test method in which at least one ultrasonic pulse is emitted into a workpiece under test by means of at least one ultrasonic transmitter (3), the ultrasonic pulse is reflected on boundary surfaces within the workpiece, the reflected ultrasound is received by at least one ultrasonic receiver (2), and the associated signals are evaluated, the ultrasound penetrating a damping block (4) that is arranged between the workpiece and the transmitter or receiver. Said method is characterized in that it includes at least one step for determining at least one dimension (alpha, d1, d2) of the damping block (4) that is relevant for the ultrasonic test; in said step, the propagation time of at least one ultrasonic pulse which is generated by the ultrasonic transmitter (3), is reflected on a boundary surface (5) of the damping block (4), and is received by the ultrasonic receiver (2) is measured, and at least one dimension (alpha, d1, d2) of the damping block (4) that is relevant for the ultrasonic test is determined from said measurement.
    • 本发明涉及一种非破坏性超声波测试方法,其中通过至少一个超声波发射器(3)将至少一个超声脉冲发射到被测工件中,超声脉冲反射在工件内的边界表面上,反射超声波 由至少一个超声波接收器(2)接收,并且相关联的信号被评估,超声波穿过布置在工件和发射器或接收器之间的阻尼块(4)。 所述方法的特征在于,它包括用于确定与超声波测试相关的阻尼块(4)的至少一个尺寸(α,d1,d2)的至少一个步骤; 在所述步骤中,由超声波发送器(3)产生的至少一个超声波脉冲的传播时间被反射在阻尼块(4)的边界面(5)上,并被超声波接收器(2)接收 ),并且从所述测量确定与超声波测试相关的阻尼块(4)的至少一个尺寸(α,d1,d2)。
    • 4. 发明申请
    • PULSE-ECHO METHOD FOR DETERMINING THE DAMPING BLOCK GEOMETRY
    • 用于确定阻尼块几何的脉冲 - 方法
    • US20110239768A1
    • 2011-10-06
    • US13062221
    • 2009-09-07
    • Michael BerkeWolf-Dietrich KleinertYork OberdoerferJerome PoirierSascha Schieke
    • Michael BerkeWolf-Dietrich KleinertYork OberdoerferJerome PoirierSascha Schieke
    • G01N29/04
    • G01N29/2468G01N29/07G01N29/32
    • The invention relates to a nondestructive ultrasonic test method in which at least one ultrasonic pulse is emitted into a workpiece under test by means of at least one ultrasonic transmitter (3), the ultrasonic pulse is reflected on boundary surfaces within the workpiece, the reflected ultrasound is received by at least one ultrasonic receiver (2), and the associated signals are evaluated, the ultrasound penetrating a damping block (4) that is arranged between the workpiece and the transmitter or receiver. Said method is characterized in that it includes at least one step for determining at least one dimension (alpha, d1, d2) of the damping block (4) that is relevant for the ultrasonic test; in said step, the propagation time of at least one ultrasonic pulse which is generated by the ultrasonic transmitter (3), is reflected on a boundary surface (5) of the damping block (4), and is received by the ultrasonic receiver (2) is measured, and at least one dimension (alpha, d1, d2) of the damping block (4) that is relevant for the ultrasonic test is determined from said measurement.
    • 本发明涉及一种非破坏性超声波测试方法,其中通过至少一个超声波发射器(3)将至少一个超声脉冲发射到被测工件中,超声脉冲反射在工件内的边界表面上,反射超声波 由至少一个超声波接收器(2)接收,并且相关联的信号被评估,超声波穿过布置在工件和发射器或接收器之间的阻尼块(4)。 所述方法的特征在于,它包括用于确定与超声波测试相关的阻尼块(4)的至少一个尺寸(α,d1,d2)的至少一个步骤; 在所述步骤中,由超声波发送器(3)产生的至少一个超声波脉冲的传播时间被反射在阻尼块(4)的边界面(5)上,并被超声波接收器(2)接收 ),并且从所述测量确定与超声波测试相关的阻尼块(4)的至少一个尺寸(α,d1,d2)。