RU215266U1 - OVERHEAD POWER LINE PROTECTION DEVICE - Google Patents

Abstract

The utility model relates to the electric power industry, namely to devices that protect pin and support line insulators and adjacent sections of the overhead power line wire from the result of the life of birds and prevent electric shock to birds. The technical result of the claimed device for protecting overhead power lines is the ability to install on a pin insulator with a lateral knitting of the wire with a linear deviation of the overhead line support. The claimed technical result is achieved due to the fact that the protection device for overhead power lines is made of insulating material, and contains at least two protective casings, consisting of a cup-shaped element and a corrugated casing-channel of ∩-shaped section, equipped with clamps, and one of the cup-shaped elements coaxially placed inside the second cup-shaped element connected to each other by means of a connecting device that allows the cup-shaped elements with casing-channels to rotate relative to each other around a vertical axis, and the corrugated casing-channel is made in such a way that its part adjacent to the cup-shaped element is made with an extension, in this case, the thickness of the insulating material on the crest and trough of the corrugation of the entire casing-channel is from 5% to 70% of the thickness of the insulating material of the straight section of the corrugation. 3 ill.

Description

The utility model relates to the electric power industry, namely to devices that protect pin and support line insulators and adjacent sections of the overhead power line wire from the result of the life of birds and prevent electric shock to birds.

From the prior art, patent RU No. 103680 with priority dated October 25, 2010, a bird protection device for end supports of power lines with pin insulators is known, containing a cup-shaped hood made of electrical insulating material with a vertical plate and corrugated channels of ∩-shaped section made integral with the hood with open lower edges of the channels and the hood and a common cavity, the device is also equipped with means of fastening on wires in the form of clamps or bandages for fixing the placement of wires inside the corrugated channels, characterized in that the length of the corrugated channels with 15-20 corrugations is 50-70 cm with an angle of top (bottom) of the corrugation 80-100°. The technical task is to increase the reliability of fastening the protection device on the end supports of the power line with pin insulators

But this device cannot be installed on a pin insulator with lateral wire knitting with a linear deviation of the overhead line support, since the device does not have extensions to cover the insulator with lateral wire knitting and does not allow bending the device at an angle of more than 10 °.

The closest in its technical essence is the device for protecting overhead power lines 6-35 kV from the life of birds described in patent RU No. 168416 with priority dated 21.07. corrugated sections of the arched cross-section, while the end part of at least one of the casings is made in the form of a glass, which allows covering the insulator, and the end part of at least the second of the casings is made in the form of an L-shaped segment, the said end parts of each of the casings are connected to each other by means of a device made in the form of a composite sliding latch inserted into the axial hole between them and allowing the casings to move relative to their vertical axis at an angle ranging from 0° to 60°, and slots are made in the second end parts of the casings for line wire.

But this device has the ability to move the casings relative to their vertical axis at an angle ranging from 0 ° to 60 ° and only in one direction, and when mounted on an insulator in the event of a linear deviation when installing the overhead line support, it is necessary to turn both in one and in the other side. When this device is installed on an overhead line with a linear deviation, a bend-stress is created in the plastic casing, which leads to its damage and failure of the entire overhead transmission line protection device, especially when installed in conditions of negative temperatures.

The technical result of the claimed device for protecting overhead power lines is the ability to install on a pin insulator with a lateral knitting of the wire with a linear deviation of the overhead line support.

The claimed technical result is achieved due to the fact that the protection device for overhead power lines is made of insulating material, and contains at least two protective casings, consisting of a cup-shaped element and a corrugated casing-channel of ∩-shaped section, equipped with clamps, and one of the cup-shaped elements coaxially placed inside the second cup-shaped element connected to each other by means of a connecting device that allows the cup-shaped elements with casing-channels to rotate relative to each other around a vertical axis, and the corrugated casing-channel is made in such a way that its part adjacent to the cup-shaped element is made with an extension, in this case, the thickness of the insulating material on the crest and trough of the corrugation of the entire casing-channel is from 5% to 70% of the thickness of the insulating material of the straight section of the corrugation. When the overhead line is deflected or rotated, a stronger fastening of the current-carrying core to the insulator is required, in contrast to the direct location of the overhead line supports, as a result of which a thickening of the current-carrying core near the insulator is created. When using the side knitting of the wire to the insulator, it is wound on the current-carrying core with aluminum wire, which allows you to fix it to the insulator. The expansion of the section of the corrugated casing-channel adjacent to the cup-shaped element makes it possible to install the protection device for overhead power transmission lines on an insulator with a lateral knitting of the wire in case of a linear deviation or turn of the overhead line, even in cases where more intensive winding was used. When installing a protective device on an insulator with a lateral knitting of a wire in the event of a linear deviation or rotation of the overhead line, it is necessary to turn the casings both in one direction and in the other direction relative to their horizontal axis without creating voltage in the casing. The analogue device provides the ability to rotate only in one direction at an angle ranging from 0° to 60° relative to their vertical axis, and rotation through an angle greater than 60° or an angle less than 0° creates bending stress in the plastic casing. Bird protection devices used in practice are made of polyamide, polypropylene, polyethylene (LDPE, HDPE) and ABS plastic with a thickness of 1 to 3 mm. The corrugation in cross section has a ridge and a depression, between which the so-called straight sections are located. The implementation of the bending of the ridge and the bending of the valley with the smallest thickness in the range from 5% to 70% of the thickness (from 1 to 3 mm) of the insulating material of the straight section of the corrugation allows increasing the range of the angle of rotation from -30° to 75°. The number of cup-shaped elements and corrugated sections of protective casings is selected depending on the task. Corrugated casing-channels of ∩-shaped section are equipped with clamps, which are made of electrical insulating material. The latch has an arched ∩-shape in cross section and is equipped with elastic guide lobes, which ensure constant preload of the wire in the latch, which in turn allows damping the resulting vibrations.

The essence of the technical solution is illustrated by drawings, where the figure 1 shows a device for protecting overhead power lines, a cup-shaped element 1, a corrugated casing-channel 2, a connecting device 3, a latch 4, an extension 5. The figure 2 shows a corrugated casing-channel, a ridge 6, a depression 7, straight section 8. Figure 3 shows a protective device for overhead transmission lines in operation, cup-shaped element 1, corrugated casing-channel 2, extension 5, insulator 9.

The protection device for overhead power lines operates as follows. When mounted on an insulator 9 with a lateral wire tie, the cup-shaped element 1 is installed on the upper part of the insulator 9, and the wire tie is placed in the extended part 5 of the casing-channel 2. The corrugated casing-channels 2 are installed on the wire with the help of clamps 4. With a linear deviation or rotation of the VL support, the protective covers are rotated on the connecting device 3 around the vertical axis by the required angle of rotation. In this case, the deformation of the corrugation of the casing-channel 2 occurs on the ridge 6 and the depression 7, i.e. thinner sections of the corrugation, without creating stress in the insulating material of the protective casing.

Claims (1)

The device for protection of overhead transmission lines is made of insulating material and contains at least two protective casings, consisting of a cup-shaped element and a corrugated casing-channel of ∩-shaped section, equipped with clamps, and one of the cup-shaped elements is coaxially placed inside the second cup-shaped element connected to it by means of a connecting device that allows cup-shaped elements with casing-channels to rotate relative to each other around a vertical axis, characterized in that the corrugated casing-channel is made in such a way that its part adjacent to the cup-shaped element is made with expansion, while the thickness of the insulating material on the ridge and in the hollow of the corrugation of the entire casing-channel is from 5% to 70% of the thickness of the insulating material of the straight section of the corrugation.

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