SU936149A1 - Device for removal of glaze ice deposits - Google Patents

Description

(B) DEVICE TO REMOVE THE NAVY

DEPOSITS

The invention relates to electrical power engineering and can be used to remove icy deposits from wires of power lines, which, in turn, helps to reduce the likelihood of a flush of wires. A spring impact device is known for removing wet snow from the wires l. However, this device has a complex structure. The closest to the technical solution of the invention is a device for removing ice deposits, containing a spring mounted with a gap on the wire. Springs loose on the wire, making movements of different nature,. contribute to the removal of wet snow 21 A disadvantage of the known device is the low removal efficiency from the wires of icy deposits, and, consequently, damping of low-frequency oscillations of the wires. It. This is due to the low mobile power of the spring, which practically does not respond to wind loads. With insignificant movements and weight of the spring in the process of intensive icing, the spring sets to the surface of the wire with ice, with the subsequent formation of an icing coupling on it. At certain sizes and forms of ice, as well as wind speed, low-frequency oscillations of lead-type wires occur, resulting in damage to the span elements of overhead power transmission lines. The purpose of the invention is to increase the efficiency of removing icy deposits. The goal is achieved by the fact that it is equipped with a two-armed arm, lever and weight, with one end of the spring rigidly fixed on the wire, the other pivotally connecting

one shoulder of the yoke, to another I treat the yoke of one attached to. the lever is located, and at the other end of the lever is a load, while the yoke is located in the same vertical plane with the wire, below it

Figure 1 shows the device, a general view, figure 2 - section. A-A in Fig, 1.

The device is made in the form of a spring 1 installed on the wire 2 with a diameter greater than the diameter of the wire

2. One end of the spring 1 is rigidly fixed on the wire 2, for example, using a wire with aluminum wire

3, The other bent end L of the spring j

I, acting as an axis, is articulated. mounted on the shoulder of the rocker arm 5, us-.

First anchored in the clamp 6, made of two halves connected by means of a bolt 7, a nut 8 and a washer 9. The other end of the rocker arm 5 is equipped with a load balanced on the lever 10

I1, while the yoke 5 is set relative to the wire 2 pivotally.

The device works as follows

Low-frequency oscillations of the wires 3 cause oscillations of the load 11, fixed through the lever 10 at the end;. rocker arm 5 pivotally fixed with respect to wire 2; Angular displacements relative to the vertical of rocker arm 5 in clamp 6 drive a spring 1 attached to each other end of the rocker arm 5, causing compression and tension of the spring 1. Intensive longitudinal displacement of the spring coils

1 friends relative to each other, due to the mechanical forces that occur, cause the ice wall to break between the turns of the spring 1 and contribute to the subsequent removal of the ice from the wire 2 section equipped with this device. surfaces, which ensured their cleanliness. The oscillations of the load 11 also take place when exposed to wind loads of wind gusts) due to the oscillation of the wire 2, i.e. removing ice from wire sections

2 probably already in the initial stage

formation of icy deposits, when the ice wall is insignificant and insignificant movements of the coils of the spring 1 are sufficient to remove icing.

Since low-frequency oscillations (PLS) of the wires 3 occur in the presence of wind and the corresponding form of one-sided ice on the power transmission wires, removing the ice from the sections of wire 3 contributes to damping or suppressing such oscillations.

When using the proposed device, the likelihood of oscillations of the type of a nd is reduced as a result of a decrease in the active energy supply zone.

The devices are mounted on the wire in zone 1 /, 1/2, 3 / of the span length. The span of the devices is selected based on the parameters of the span and the intensity of the expected plane.

The use of the device on overhead transmission lines allows to increase the efficiency of oscillation damping (flat) of wires in the icy-wind load mode.

Claims (2)

1. USSR author's certificate №, cl. H 02 G 7/16, 19b7. 2. Japanese patent number 32070, cl. 60., Published 1977.