RU2017297C1 - Method of determination of wire dancing - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: two sensors of wire dancing are positioned in span, each at distance of one fourth of its length. One basis of measurement and comparison of single-phase and antiphase amplitudes of vibrations of sensors with amplitudes equal in value with one direction dancing of wires of one half-wave in span is registered, with vibration amplitudes equal in value but having different directions dancing of wires of two half-waves is registered. EFFECT: improved efficiency and reliability of method. 3 dwg

Description

 The invention relates to the electric power industry and can be used on overhead power lines passing in icy areas to detect and determine the dancing of wires.

 There is a method of determining the dancing of wires, which consists in installing in the span of the sensors dancing wires and measuring the amplitude of their vibrations.

 The disadvantage of this method is the lack of measurement accuracy. This is because the method does not allow you to control the number of half-waves when dancing wires with one sensor installed in the span. Dangerous modes of wire dancing from the point of view of damage to the span structural elements are observed, as a rule, with one- and two-half-wave oscillations. Therefore, the installation of one sensor in the span does not allow to determine the actual amplitude of the dancing of wires, which is very important for taking timely measures to combat dancing of wires. So, if the sensor is installed in the middle of the span, then it captures the amplitude of the dance during one-half-wave oscillations, but practically does not respond to two-half-wave oscillations. When installing the sensor in the 1/4 zone of the span, it captures the amplitude during two-half-wave oscillations, and with one-half-wave dance gives an underestimated value of the amplitude. Due to the fact that the number of half-waves in the event of dancing wires is not controlled in a known manner, it does not provide a determination of the actual amplitude of the oscillations.

 The purpose of the invention is to improve the measurement accuracy and determine the number of half-waves of dance.

 The goal is achieved by the fact that two sensors are installed on the wire in the span, each at a distance of one fourth of its length, single-phase or antiphase amplitudes of the oscillations of the sensors are measured and compared, and if the amplitudes are equal in magnitude and have one direction, fix the dance of wires with one half-wave in span, if the amplitudes are equal in magnitude, and have a different direction, fix the dance of wires with two half-waves in the span.

 In FIG. 1 shows the location of the wire dance sensors in the span; in FIG. 2 - position of the sensors for two-wave dance; figure 3 - the same with a single-wave dance.

 Between the supports 1 of the overhead power line on the wire 2 at a distance of 1/4 of the length of the span L there are two sensors 3 dancing wires.

When two-wave dancing wire 2, the oscillation of the sensors 3 occurs in antiphase, i.e. with a phase shift of 180 ^about . In this case, the readings of the indicators of the measuring instruments at the control room are the same in magnitude and opposite in phase (for example, the arrows deviate in different directions). Thus, with antiphase amplitudes of oscillations of sensors 3 on wire 2, a dance with two half-waves is recorded in the span under study, and its amplitude corresponds to the amplitude of oscillations of any sensor 3.

раз. Таким образом, при однофазовых амплитудах колебаний датчиков 3 на проводе 2 в исследуемом пролете фиксируют пляску с одной полуволной, а ее амплитуде больше амплитуды колебаний любого датчика 3 в

раз.With a single-half-wave dance of wire 2, the sensors 3 record the value of the single-phase displacements of wire 2 at a distance of 1/4 of the span, while the readings of the indicators of the measuring instruments are the same in magnitude and phase (for example, the arrows deviate in one direction). The magnitude of the wire displacement in the 1/4 zone of the span (Z = 1/4 L) for single-wave dancing (m = 1) according to the theory of oscillations is less than the amplitude value in sin

time. Thus, with single-phase amplitudes of the oscillations of the sensors 3 on the wire 2 in the studied span, dance with one half-wave is fixed, and its amplitude is greater than the amplitude of the oscillations of any sensor 3 in

time.

=

(у - амплитуде колебания датчика 3 в месте его установки на проводе 2), т.е. для получения фактической амплитуды пляски необходимо показания измерительного прибора увеличить в

раз.The proposed method for determining the dances of wires is implemented as follows. If the readings of measuring instruments fixing the oscillation amplitudes of the sensors 3 of the dance coincide in magnitude and direction, this means that in the span under study there is a dance with one half-wave and amplitude A =

=

(у is the oscillation amplitude of the sensor 3 in the place of its installation on wire 2), i.e. to obtain the actual amplitude of the dance, it is necessary to increase the readings of the measuring device in

time.

= y т.е. фактическое значение амплитуды пляски соответствует показаниям прибора.If the readings of the measuring instruments coincide in magnitude but are opposite in direction (phase), then this means that in the span there is a dance with two half-waves and amplitude A =

= y i.e. the actual value of the amplitude of the dance corresponds to the readings of the device.

 Using the proposed method allows to obtain information about the actual value of the amplitude and the number of half-waves of dancing wires, which is important for assessing the danger of the consequences of these fluctuations and timely adoption of measures to eliminate them.

= 0,36 м.PRI me R 1. Measuring instruments that record the amplitudes of the vibration sensors dance wire, have the same value of 0.25 m, while the oscillations coincide in phase (the arrows of the instruments deviate in one direction). This means that in the studied span of the overhead power line there is a dance of wires with one half-wave and an amplitude of 0.25

= 0.36 m.

 PRI me R 2. Measuring instruments show the same values of 0.25 m, while the oscillations occur in antiphase (the arrows of the instruments deviate in different directions). In the span there is a dance with two half-waves and an amplitude of 0.25 m.

Claims (1)

 METHOD FOR DETERMINING THE DANCE OF WIRES, which consists in installing in the span the sensors of dancing wires and measuring the amplitude of their vibrations, characterized in that two sensors are installed on the wire in the span, each at a distance of 1/4 of its length, the single-phase and antiphase amplitudes of the oscillations of the sensors are measured and compared if the amplitudes are equal in magnitude and have one direction, fix the dance of wires with one half-wave in flight, if the amplitudes are equal in magnitude and have different directions, fix the dance of wires with two n luvolnami in flight.

Images