SU957332A1 - Device for removing sleet deposits - Google Patents

Description

(5k) DEVICE-FOR REMOVAL OF NAVIGATION DEPOSITS

Claims (2)

The invention relates to power engineering and is intended to protect overhead power lines from low-frequency vibrations of wires by removing ice deposits from the sections of the wires. A spring device is known for removing wet snow and ice from wires of power lines. A disadvantage of the known device is the limitations of its practical use. Closest to the present invention is a device for removing icy deposits from wires of power lines, containing springs mounted on a wire with a gap, one end of which is fixed on the water and others on a longitudinal element located between the springs and hinged on the wire 2. A disadvantage of the known device is the low ice removal efficiency, which is explained by the gradual compression and tension of the springs when the plate is deflected by the wind. The purpose of the invention is to increase efficiency. This goal is achieved by that in the device for removing ice deposits from the wires of power lines, contained on the wire with a gap n, the ends of which are fixed on the wire and others on the longitudinal element located between the springs and mounted on the wire hingedly, the longitudinal element is designed as impeller with a hub having face gear cams, and the device is equipped with a protective sleeve and counter cam. Kami with lateral longitudinal slots attached to the ends of the springs and installed with the possibility of sliding on the protective sleeve, on both sides of the gear cams. FIG. 1 shows the proposed device, a general view; in fig. 2 section A-A in FIG. one; in fig. 3 node T in FIG. 1. A device for removing icy deposits includes an impeller with profiled blades 1 and a hub 2, which is detachable from two halves connected by elastic rings 3. Hub 2 has end gear cams L, which interact with counterframe cams 6 sliding longitudinally along protective sleeve 5. The cams 6 (having lateral longitudinal slits) are connected by elastic rings 7 with only the ends of the springs (left and right) 8. The other ends of n (eugen 8 are fixed on the wire 9, for example, using hall hall ovoloki 10. The protective sleeve 5 is made of two halves fixed on wire 9 by means of elastic rings 11. Springs B are made with an inner diameter greater than the outer diameter of wire 9, i.e. they are mounted on wire 9 with a gap. working under the influence of the wire 9 of the electric transmission of icy-wind loads of the blade 1 of the impeller causes the rotation of the hub 2 of the impeller moving along the protective sleeve 5- Face gear jaws of the hub 2 when it rotates Moving along the lateral screw faces of the counter cams 6, cause their longitudinal movements in the sleeve 5 to different sides from the hub 2. Such movements of the cams 6 result in compression of the springs 8 and a corresponding displacement of the coil springs 8 relative to each other, which helps to remove the ice and wet snow from the surface of the wire 9 in the process of formation of the icy film and the wall. When the teeth of the cams k of the hub 2 hit the depressions of the counter cams 6, a sharp blow occurs, the springs 8 depress and a quick movement of the counterparts Ls1chkov 6 to the initial position. With such a sharp impact and a rapid reverse displacement of the coils of the springs 8, the 4 formed ice walls are more effectively destroyed and, due to shaking, they are removed from the surface of the wire 9- With a further rotation of the blades of the impeller, the ice wall destruction process described above is repeated. Thus, the wire sections 9 equipped with the proposed device are freed from icy deposits, which reduces the active energy supply zone and leads to a decrease in the amplitude of the low-frequency oscillations of the wires 9 and also decreases the likelihood of such oscillations. The proposed devices are installed on the wire in zone 1 /, l / 2i, and 3 / span length. The coverage area of the wire (along the length) by the devices is selected taking into account the intensity of the observed wire in this area. . ,, The use of the proposed device on overhead transmission lines improves the efficiency of removing ice from wire sections, and consequently, reduces the likelihood of oscillations (plc) of wires leading to accidents. Formula of the Invention A device for removing ice deposits from power lines containing gfuzhiny installed on the wire with a gap, some ends of which are fixed on the wire and others on the longitudinal element located between the springs and mounted on the wire articulated, in that j. In order to increase efficiency, the longitudinal element is made in the form of an impeller with a hub, which has face-toothed cams, and the device is equipped with a protective sleeve and counter cams with lateral longitudinal slits attached to the ends of the springs and mounted slidably on the protective sleeve on either side of gear cams. Sources of information taken into account during the examination 1. USSR author's certificate fP, cl. H 02 G 7/16, 19b7. 2. USSR author's certificate for application No. 29lA736 / 2t-07, cl. H 02 C 7/16, f4.10.80. F1 / .2 FIG. J