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Method for calculating thickness and weight of ice coating on overhead transmission line of tangent tower

A technology for overhead transmission lines and ice thickness, which is applied in weighing, measuring devices, weighing equipment for materials with special properties/forms, etc., and can solve problems such as calculation errors, ignoring the influence of insulator string wind deflection, and errors.

Inactive Publication Date: 2010-12-08
SOUTH CHINA UNIV OF TECH +1
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Problems solved by technology

The current mechanical monitoring method has the following deficiencies: (1) The influence of wind deflection of insulator strings is not considered; (2) The method of subtracting the wind load in the vertical direction from the wind load in the vertical direction to obtain the ice load has no mechanical connection; (3 ) The wind speed sensor is installed on the top of the pole tower. The wind speed at the top of the tower is different from the wind speed at the actual line and the wind speed has great randomness. Directly using the wind speed at the top of the tower instead of the wind speed of the wire will cause calculation errors; (4) The length of the wire is directly calculated by The product of multiplying the vertical span by an estimated coefficient will bring a large error

Method used

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  • Method for calculating thickness and weight of ice coating on overhead transmission line of tangent tower
  • Method for calculating thickness and weight of ice coating on overhead transmission line of tangent tower
  • Method for calculating thickness and weight of ice coating on overhead transmission line of tangent tower

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Embodiment

[0081] The object of this example is a 220kV line 96# straight tower in Guizhou Power Grid. The designed ice thickness of the tower is 10mm, and the conductor is ACSR 2×LGJ-500 / 45. The icing calculation process is decomposed into the calculation of mechanical parameters without icing and the force balance analysis of icing.

[0082] Such as figure 1 As shown, in step S1, the mechanical calculation is performed in the vertical plane formed by the main tower and the large and small side towers:

[0083] Utilize the wire length S between the small side tower and the main tower during design 1 , The wire length S between the large side tower and the main tower during design 2 , respectively solve the wire length S at the ice-covered temperature at the time to be calculated t1 and S t2 , where S t1 is the wire length between the small side tower and the main tower at the freezing temperature, S t2 The wire length between the large side tower and the main tower at the time of ...

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Abstract

The invention discloses a method for calculating the thickness and the weight of ice coating on an overhead transmission line of a tangent tower. The method comprises the following steps of: 1, calculating basic mechanic parameters of a wire at ice coating temperature but without ice coating in a vertical plane according to the design parameters; 2, calculating height difference angle in a wind deviation plane, wire horizontal stress, wire deadweight ratio load in a vertical direction, horizontal span and wire length from the lowest point of a wire of big and small side towers to a main tower according to the wind deviation angle of an isolator string measured by a sensor; and 3, establishing a relation expression between the tilt angle of the isolator string in the wind deviation plane and the wind deviation angle of the isolator string in the wind deviation plane and the tilt angle of the isolator string in the vertical plane, and establishing an equation of load balance in the vertical direction after the ice coating in the wind deviation plane, and calculating the thickness and weight of equivalent ice coating of the wire. The method has the advantages of reducing the equipment quantity, and improving the calculation precision and the accuracy and the reliability of the calculation result.

Description

technical field [0001] The invention relates to the field of on-line monitoring of icing on transmission lines in the field of electric power, in particular to a mechanical method for calculating the equivalent icing thickness and weight of overhead transmission lines. Background technique [0002] my country is one of the countries in the world where transmission lines are seriously covered with ice. Severe ice and snow accumulation will lead to a sharp decline in the mechanical and electrical performance of transmission lines, causing accidents such as insulator flashover, line tripping, line disconnection, tower collapse, conductor galloping, and communication interruption. At the beginning of 2008, some provinces in southern my country suffered from the most serious freezing rain and snow disasters in the past 80 years. Ice flashes occurred frequently, and accidents such as line tripping, disconnection and tower collapse were common, which threatened the safe and stable ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01B21/08G01G17/00
Inventor 李立浧阳林罗兵郝艳捧黎小林黎卫国朱功辉戴栋
Owner SOUTH CHINA UNIV OF TECH
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