RU2504880C1 - Device for removal of ice coating from wires of overhead transmission lines - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: device for removal of ice coating (1) from wires (2) contains an element (3) for pulsed shaking up of wires (3); it is actuated by weight of coating on it; it is in-built into mechanical circuit of wire suspension to insulator (4) that consists of the hook (5) is inserted freely by threaded part (6) into through hole (7) in support (8) and fixed by a screw nut (9). The element for pulsed shaking up of wires is made as a spherical buckling membrane in a hole (10) between nut and support and faced to the support by its concave side.

EFFECT: increasing efficiency and simplifying design.

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Description

The invention relates to the field of electric power and can be used for mechanical removal of ice deposits from wires of overhead power lines.

Known devices for the mechanical discharge of wet snow and ice deposits from the wires of overhead power lines using spaced elements for impulsive shaking of the wire and shock spring elements / see A.S. USSR No. 754541, class H02G 7/00, 1978 [1]; A.S. USSR No. 1415309, class H02G 7/16, 1978 [2]; A.S. USSR No. 1415309, class H02G 7/16, 1986 [3]; A.S. USSR No. 700888, cl. H02G 7/00, 1978 [4] /

The disadvantages of the known devices are the inability to automatically clear ice debugging when they reach dangerous values, the significant design complexity due to the need to use elements with special physical effects, short circuits, lightning ropes, materials with a shape memory effect / EPF / etc., additional energy costs , narrow possibilities of use, limited in each case by the specific design of the power line.

It is also known a device for dumping ice deposits from wires of power lines, containing a hammer striking the wire, and a drive acting on the weight of the deposits and made in the form of a spatial kinematic spring lever-gear mechanism, equipped with a gear rack, ratchet mechanism and gear sector / cm. A.S. USSR No. 252438, H02G 7/16, 1967 [5] /.

The disadvantages of the known device are the extreme complexity of the design, limited functionality and applications, low efficiency of the discharge of deposits and operational reliability.

In typical supports of overhead power transmission lines, the mechanical chain of suspension of the wire to the pin insulator consists of a hook or a threaded pin freely inserted by the threaded side into the hole in the support and fixed with a nut / see, for example, K.M. Poyarkov “Power plants, substations, lines and networks”, M., 1971, p.223-234 [6] /.

However, in these supports, in principle, there are no devices for dumping ice deposits, disrupting spurious vibrations of wires, etc.

The closest device of the same purpose to the proposed device for a combination of essential features is a device for discharging ice deposits from wires of power lines, containing a hammer striking the wire under the influence of the weight of the deposits, and made like a spring balance built into the mechanical circuit of the wire to the insulator , and kinematically connected by their fixed rod to the rotary handle of the hammer using the articulated rocker arm and pusher, interlocked by means of slaughter / cm. A.S. USSR No. 115292, cl. H02G 7/16, 1957 [7] /, and adopted as a prototype.

The disadvantages of the prototype device are the extreme complexity of the design, low efficiency of sediment discharge and reliability, limited functionality and applications. The presence of deposits on the wires with a certain nature of wind disturbances leads to resonant vibrations of the wires, the appearance of their low-frequency oscillations of the "dance" type, leading to damage to overhead power lines. In the prototype device, there is practically no possibility of disrupting the above modes, adjusting the specified wire tension forces, that is, the functionality is extremely limited.

The essence of the invention lies in the creation of a device that automatically discharges ice deposits from wires when their weight reaches values that are higher than acceptable, due to the inclusion of a relay element in the mechanical suspension circuit, which provides pulse shaking of the wires at critical loads.

The technical result is a simplification of the design of the device, increasing the efficiency of the discharge of ice deposits, expanding the functionality of the device.

The specified technical result in the implementation of the invention is achieved by the fact that in the known device for dumping icy deposits from wires of a power line, including an element for pulse shaking of wires, acting on the weight of deposits and built into the mechanical circuit of the wire to the insulator, consisting of a hook, freely inserted threaded side into the through hole in the support and fixed with a nut, the feature is that the element for pulse shaking of the wire is made in the form of a spherical clapping membrane with an axial hole located between the nut and the support and its concave side facing the support, while the structural and technological parameters of the membrane are selected so that the initial, monotonically increasing section of its characteristic overlaps the range of nominal values of the tension of wires of this type of power line, and the clap force of the membrane, corresponding to its exit to the relay section of the characteristic, is equal to the tension of this wire with the maximum permissible weight of ice deposits th on it.

The invention is illustrated in the drawing, which schematically shows the proposed device in General view with a longitudinal section.

A device for dumping ice deposits 1 from wires 2 of the power line includes an element 3 for impulse shaking of wires 2, acting on the weight of deposits 1 and integrated into the mechanical circuit of the suspension of wire 2 to the insulator 4, consisting of a hook 5 freely exposed by the threaded side 6 into the through hole 7 in the support 8 and fixed by the nut 9, while the element 3 for pulse shaking of the wire 2 is made in the form of a spherical popping membrane with an axial hole 10 located between the nut 9 and the support 8 and facing the supports 8 of its concave side. As is known / see, for example, L.E. Andreeva “Elastic elements of devices”, M., 1962, pp. 311-315 [8] / for known types of steel spherical flapping / convex / membranes when loading them with forces from the convex side / see [8], p. 312, Fig. 166 / in the initial portion of the characteristic, connecting the deflection with pressure, increases monotonously. But at a certain critical pressure / with the force of a “pop” or actuation / the membrane jumps abruptly and goes to the relay section with an abrupt increase in the deflection. With full or partial discharge of the load, that is, with a decrease in pressure, the membrane also returns to its initial convex state by cotton, but a reverse jump occurs at lower pressures. In the proposed device, the structural and technological parameters of the membrane 3 are selected so that the initial, monotonically increasing section of its characteristics overlaps the range of the nominal values of the tension of wires 2 of this type of power line, and the force of the cotton membrane 3, corresponding to its output to the relay section of the characteristic, is equal to the tension of this wire with the maximum permissible weight of ice deposits on it. The support 8 may be wooden, reinforced concrete, etc. /cm. [6], pp. 235-239 /, insulators 4 - glass, porcelain, etc. /cm. [6], pp. 233-234 /, the features of a given tension and fastening of wires are described here / see►6], pp. 248-249 /.

The work of the proposed device is as follows.

First, the wire 2 is simply fixed on the insulator 4, and the mechanical suspension circuit of the wire 2, consisting of elements 3, 4, 5, 6, 9, is assembled with an undeformed membrane 3. Then, by screwing the nut 9, the membrane 3 is deformed at the initial, monotonous section of its characteristic As a result, the nominal value of the tension of the wires 2 is determined, which is determined for the power line by the necessary arrow of the sag using the installation tables / cm. [6], p. 249 /, after which the nut 9 is fixed. With increasing weight of ice deposits 1 on wire 2, its tension increases and, accordingly, the pressure on the left from the convex side to the membrane 3, accompanied by an increase in the monotonic deformation of the latter. When the weight of deposits 1 reaches the maximum permissible values, which is determined by the maximum permissible sag / cm. [6], p. 249 /, the clap of membrane 3 occurs, that is, its abrupt actuation with a relay increase in the deflection. Such a clap leads to impulse shaking of wire 2 and, correspondingly, to a complete or partial discharge of ice deposits 1 from wire 2. The load on the membrane 3 decreases sharply, and it also returns to its initial convex state by a monotonous increasing portion of the characteristic. In this case, the device is again ready for operation when deposits 1 again appear on wires 2. In the event of the presence of deposits 1 and wind disturbances, dangerous vibrational modes of wires / resonance, “dancing”, etc. / the proposed device with a clap of membrane 3 provides almost instant breakdown of the oscillatory mode. The selection of the structural and technological parameters of the membrane 3 is quite simple, since the boundaries of the monotonous section of the characteristic and the effort of the cotton are not critical, that is, their values can be selected quite approximately.

Thus, in comparison with the prototype device [7], the proposed device is characterized by extreme simplicity of design and reliability due to the exclusion of a complex spatial kinematic drive mechanism, increased efficiency of the discharge of ice deposits, carried out not by local disturbances due to hammer blows, but by pulse shaking of the wire, and also by expanding the functionality of the device due to the implementation, in addition to the discharge of deposits, the function of setting the nominal tension of the wire and automatic breakdown of dangerous vibrational modes of wires in cases of their occurrence. At the same time, by setting up the device, it is possible to periodically shake the wires quite often with a relatively low weight of deposits, which allows the discharge of deposits already at the initial stage of their formation, which, of course, greatly facilitates the discharge process and prevents the occurrence of hazardous conditions in advance.

Claims (1)

A device for dumping ice deposits from wires of a power line, including an element for pulse shaking of the wire, acting on the weight of the deposits and built into the mechanical circuit of the wire to the insulator suspension, consisting of a hook, freely threaded side inserted into the through hole in the support and fixed with a nut, characterized in that the element for pulse shaking of the wire is made in the form of a spherical clapping membrane with an axial hole located between the nut and the support and facing its support the concave side, while the structural and technological parameters of the membrane are selected so that the initial, monotonically increasing section of its characteristics overlaps the range of the nominal values of the tension of the wires of this type of power line, and the force of the clap of the membrane corresponding to its output to the relay section of the characteristic is equal to the tension of this wire with the maximum permissible weight of ice deposits on it.