RU127262U1 - SUPPORTING CLAMP - Google Patents

Abstract

1. Supporting clamp containing a protector, a power spiral, a loop fixed in the spout channel, characterized in that the protector is made of wires preformed to a diameter of a cable or cable, glued together in a strand and coated on the inside with an abrasive, the power spiral is made of wires preformed under the tread diameter and glued together into a strand, the inner part of which is coated with an abrasive, in the central part of the power spiral wire are twisted together to the circumference of the throat gutter and bent 360 ° into the loop, the width, the radius of the trough, the inner and outer diameters of the thimble, as well as the number and length of the preformed wires in the tread and the power spiral are determined and made taking into account the load characteristics of the cable or cable, and the ratio of the tread length to the length of the power spiral is made within 1.1-1.3.2. The supporting clamp according to claim 1, characterized in that along the entire length the preformed wire for the tread is made with the same inner diameter of the spiral, which is smaller than the outer diameter of the cable or cable, and the preformed wire for the power spiral is made with the same inner diameter of the spiral, which is smaller than the outer diameter tread, while along the entire length of the preformed wire for the tread and the power spiral are made with the same step of transformation. 3. The supporting clamp according to claim 1, characterized in that the tread and power spiral are made of aluminum-clad steel wire. The supporting clamp according to claim 1, characterized in that to prevent damage to the cable or cable, the ends of the tread wires are chamfered.

Description

The invention relates to the field of electric power and communications, in particular to spiral support clamps for hanging self-supporting optical communication cables and wires of overhead power lines.

A support clip for wires of overhead power lines and self-supporting optical communication cables is known, comprising a boat for a wire or cable, tightening bolts installed in the boat and pressing the wire or cable to its gutter, and a suspension for securing the clip to the line support [Description of the invention to the patent RF №2303846 "Support clamp for the wires of an overhead power line", cl. H02G 7/05 of November 30, 2005, publ. July 27, 2007].

One of the main disadvantages of the known support clip is the inability to eliminate the disadvantages associated with the presence of damage to the wire or cable at the outlet of the clip boat, as well as the service life of the clip is about 25 years, which does not correspond to the service life of overhead power lines or communication lines.

Known spiral support clamp containing a boat under the wire or cable, tightening bolts installed in the boat and providing a pressure of the wire or cable to its gutter, and the suspension for securing the clip to the support of the line, it is equipped with a protector consisting of a set of wire spirals, wound on a wire or a cable so that the ends of the tread extend on both sides of the boat from its ends, with a die mounted on the outer surface of the tread and ensuring that the wire is secured by tightening bolts cable protector trough for pumps, the ends on the ends of which are made over a length L ₁ = (0,02 ÷ 0,49) L-shaped socket intended to avoid damaging the wire or cable with fluctuations where L - length of the clip, while in the middle part of the side surfaces of the boat at an equal distance from its ends formed tides for fixing the suspension above and below the boat, and at a distance L ₂ defined by the length of the boat, as measured from its center to the ends, on the side surfaces of boats made additional tides for fastening cuddling x die to a wire or cable of said tightening bolt; the boat is made in the form of a semicircular groove with a variable cross-section along its length with a radius of R ₁ bending the groove in the middle of the boat relative to the vertical plane, equal to R ₁ = (15 ÷ 250) d _pr.max , where d _pr.max is the maximum diameter of the mounted wire or cable; the average value of the bending radius of the semicircular boat gutter is determined within (0.52 ÷ 1.2) of the outer diameter of the spiral tread in a state wound on a wire or cable; each bell at the ends of the boat is made along a radius R ₂ equal to R ₂ = (0.5 ÷ 20) d _pr.max ; said tightening bolts are U-shaped; the die is made in the form of an inverted T-shaped figure with at least two recesses under the U-shaped tightening bolts; the suspension is made in the form of a bracket fixed on top and bottom of the boat by means of nuts; tides in the middle part on the side surfaces of the boat, designed for mounting the suspension, are made with holes; additional tides for attaching the clamping dies to the wire or cable of said tightening bolts are provided with holes, and the distance L ₂ at which additional tides with holes are located is chosen equal to (0.25 ÷ 0.3) from the length of the boat, measured from its center to the ends ; the length of the spiral tread is selected based on the condition of up to 50 boat lengths; the installation of a spiral tread along the length of the clamping boat provides an increase in the termination strength of the wire or cable by at least 10% relative to the standard nominal value of the termination strength. [Description of the invention to the patent of the Russian Federation No. 2431226 "Spiral support clamp", cl. H02G 7/05 of 07/01/2010, publ. 10/10/2011].

The design shortcomings of the known helical support clamp are the complexity of the design solution, insufficient termination strength, the difficulty of mounting the clamp on the cable, it is not resistant to wire dancing, and the aeolian vibrations used materials in the known clamp are subject to corrosion, which generally affects the service life.

The closest technical solution to the proposed utility model is a support clip for hanging an optical self-supporting non-metallic communication cable on overhead power transmission towers, comprising a suspension, a spiral protector, a strand of power wire spirals consisting of at least two branches and loops wound over the cable, fixed to the suspension; the spiral protector and a strand of power wire spirals are located in a sheath made of a plastic coating layer, the spiral protector is wound onto the cable so that the turns of the tread are located between the turns of the branches of the strands of power wire spirals, the suspension is made in the form of an Ω-shaped profile with a groove along its circular perimeter, into which the loop of the strand of power wire spirals is inserted, while the length of the spiral tread l of the _tread depends on the length of the strand of power wire spirals l of the _lock and is selected from the relation l _Tread / l _strand = 0,3 ÷ 1,1; the step of winding the spiral tread is equal to the step of winding the strands of power wire spirals; a loop of a strand of power wire spirals is fixed to the suspension by means of a clamp; polyvinyl chloride or polyethylene is selected as a plastic coating; the suspension can be made in the form of a disk with a groove along its circular surface. (Description of the invention to the patent of the Russian Federation No. 2313873 "Supporting clamp", CL H02G 7/05 of 09/19/2006, publ. 12/27/2007].

One of the main disadvantages is the use of polyvinyl chloride, so it can not be used outdoors, since it adsorbs moisture on its surface. This material is used for the protective sheath of cables that are laid indoors, buildings, etc. The assertion that the tread may damage the cable sheath is unfounded, as this applies only to the qualifications of the installers.

The disadvantages also include the fact that structurally strands of power wire spirals are located between the strands of the tread, i.e. the clamp contacts directly with the cable, and the protective function of the tread in this case disappears, respectively, and operational reliability is reduced.

The use of a clamp in the construction complicates the process of mounting the clamp, and a large spread in the ratio of tread lengths and power spirals (0.3-1.1) is not rational and sufficiently long and difficult for the optimal selection of tread lengths and power spirals.

The design of the known supporting clamp is powerless against horizontal loading, and such a load often occurs, since it can occur on one side of the clamp more than on the opposite, and in this case, it is more likely that the cable from the clamp will simply slip out, respectively, can lead to emergency situation.

It should be noted that the known support clamp cannot be used both for self-supporting cables in the sheath, and for metal cables (cables), and its manufacturing technology is quite complex and unsafe, since the plastic coating is applied by dipping a spiral into a polyethylene melt.

The technical problem of the utility model is the development of a universal clamp supporting, which provides higher clamping strength, resistance to clamp breakage, increased resistance to wire dancing, aeolian vibration, ease of installation and low cost of the clamp design, as well as provides increased service life and operational reliability.

The technical result of the utility model consists in expanding the functionality due to the universality of applying the clamp design to various types of cables or cables and for any types of supports, increasing operational reliability by increasing resistance to wire dancing, aeolian vibration, as well as simplicity of design and installation, reducing cost. and increase the life of the proposed clamp support.

The technical result is achieved by the fact that in the supporting clamp containing a protector, a power spiral, a loop fixed in the spout of the spade, the protector is made of wires preformed under the diameter of the cable or cable, glued to each other in a strand and coated on the inside with an abrasive, the power spiral is made of wires preformed to the diameter of the tread and glued together in a strand, the inner part of which is coated with an abrasive, in the central part of the wire of the power spiral are twisted together for a circumference of thimble and bent 360 ° into a loop, and the number and length of the preformed wires in the tread and the power spiral, as well as the width, radius of the trough, the inner and outer diameter of the thimble are determined and made depending on the load characteristics of the cable or cable, and the ratio of tread lengths and the power spiral is made in the range of 1.1-1.3, and along the entire length of the preformed wire for the tread is made with the same inner diameter of the spiral, which is smaller than the outer diameter of the cable or cable, and the preformed wire a wire for a power wire spiral - with the same inner diameter of the spiral, which is smaller than the outer diameter of the tread, while the preformed wire for the tread and power spiral is made along the entire length with the same step of the preformation.

The tread and power spiral in the proposed clamp are made of aluminum-clad steel wire, and to prevent damage to the cable or cable, the ends of the tread wires are chamfered.

The essence of the utility model is illustrated by drawings, where in Fig.1 shows a General view of the supporting clamp; figure 2 is a section along aa in figure 1, figure 3 is a transverse section of the thimble.

The supporting clamp (Fig. 1) includes a tread 1, a power spiral 2, a loop 3, a thimble 4, while a loop 3 of a power spiral 2 is fixed in the trough of the thimble 4.

The tread 1 (figure 2) is made of 5 wires preformed for the diameter of the cable (cable) glued together in a strand and coated on the inside with an abrasive.

Power spiral 2 (figure 2) is made of wires preformed under the diameter of the tread 1 and glued together in a strand, the inner part of which is also covered with an abrasive.

In the central part of the wire, the power spiral 2 is twisted together to the circumference of the spout of the spout 4, and bent 360 ° into a loop 3, this design provides additional rigidity and clamping strength.

Given the calculated load characteristics of the cable (cable) 5, the number and length of the preformed wires in the tread 1 and the power spiral 2, as well as the width t, the radius of the groove R, the inner d and the outer D diameter of the thimble 4 (Fig. 3) are determined.

The ratio of the lengths of the tread 1 and the power spiral 2 in the clamp should be made in the range of 1.1-1.3. The choice of the optimal ratio of the lengths of the tread 1 and the power spiral 2 is determined by calculation and experimentally, taking into account the load characteristics of the cable (cable) 5.

Along the entire length of the preformed wire for the tread 1 is made with the same inner diameter of the spiral, which is less than the outer diameter of the cable or cable.

Preformed wire for the power spiral 2 is made with the same inner diameter of the spiral, which is less than the outer diameter of the tread 1.

It should be noted that along the entire length of the preformed wire for the tread 1 and the power spiral 2 are made with the same step of the transformation, while the tread 1 and the power spiral 2 are made of aluminum-plated steel wire.

In order to avoid damage to the cable (cable) 5 when mounting the clamp supporting the ends of the wires of the tread 1 is made with a bevel.

The proposed design of the support clamp can be used for aerial mounting of optical communication cables embedded in a lightning protection cable (OCGT), lightning protection cable (GT) and self-supporting optical communication cables (OKSN) on the supports of transmission lines with voltage up to 35 kV and higher, on the supports of overhead power lines , communication lines of urban electric facilities (street lighting, ground electric vehicles), elements of buildings and structures.

Installation of the proposed support clip is as follows:

The cable (cable) 5 at the installation site should be clean, lay the tread strand 1 on the cable (cable) 5 with the middle part in the region of the mark on the tread strand 1. Make several turns on both sides of the mark, and then repeat this procedure with all the tread strands 1. After this, all strands are wound simultaneously, first to the side of the mark, then to the opposite. After mounting the tread 1, make sure that the wires are snug against each other, none of them protrude above the overall diameter of the tread 1. The power spiral 2 must be combined with the central mark on the tread 1 with the exit point of the strands of the power spiral 2 from the ring thimble 4, after which a strand of a power spiral 2 is applied to the tread 1 and two (three) steps of the strand are wound. After this, two (three) steps of the second strand are wound. Then, one by one, the strands of the power spiral 2 are wound to the end.

Practical tests of the proposed design of the supporting clamp showed the dependence of the length of the tread 1 and the power wire spiral 2 on the load characteristics of the cable (cable) 5, i.e. with an increase in load characteristics by 50%, the length of the tread and the power wire spiral must be increased by 20%.

The tread 1 is correlated with the length of the power spiral 2 as follows: in a straightened state, the length of the power spiral 2 and the length of the tread 1 are the same. When twisting the power spiral 2 and after mounting it on the tread 1, the power spiral 2 has a length of 400-450 mm shorter than the length of the tread 1.

The proposed supporting clamp is a monolithic design that provides improved mechanical characteristics, i.e. the protective properties of the tread 1 along its entire length are duplicated by a power wire spiral 2.

The support ring ring included in the clamp is made of high-strength cast iron of the VCh60 brand according to GOST 7293 - 85 “Cast iron with spherical graphite for castings. Stamps. "

The width, the radius of the gutter, the inner and outer diameters in the spout 4 are calculated taking into account a number of destructive loads according to GOST 11359-75 “Linear fittings. A number of destructive loads. "

The proposed design of the thimble and the clamp as a whole allows without technical difficulties to use and mount the proposed clamp both in the design and construction of the overhead line.

Tests of the proposed clamp supporting the strength of the seal showed that it withstands stalling of more than 70 kN.

Using the proposed utility model allows to expand the functionality due to the universality of the clamp design for various types of cables or cables and for any types of supports, to increase operational reliability by increasing the resistance to wire dancing, aeolian vibration, and also to simplify the design and installation, reduce costs and increase service life of the proposed clamp supporting.

Claims (4)

1. Supporting clamp containing a protector, a power spiral, a loop fixed in the spout channel, characterized in that the protector is made of wires preformed to a diameter of a cable or cable, glued together in a strand and coated on the inside with an abrasive, the power spiral is made of wires preformed under the tread diameter and glued together into a strand, the inner part of which is coated with an abrasive, in the central part of the power spiral wire are twisted together to the circumference of the throat gutter and bent 360 ° into the loop, the width, the radius of the trough, the inner and outer diameters of the thimble, as well as the number and length of the preformed wires in the tread and the power spiral are determined and made taking into account the load characteristics of the cable or cable, and the ratio of the tread length to the length of the power spiral is made within 1.1-1.3. 2. The supporting clamp according to claim 1, characterized in that along the entire length of the preformed wire for the tread is made with the same inner diameter of the spiral, which is smaller than the outer diameter of the cable or cable, and the preformed wire for the power spiral is with the same inner diameter of the spiral, which is less the outer diameter of the tread, while along the entire length of the preformed wire for the tread and the power spiral are made with the same step of the preformation. 3. The supporting clamp according to claim 1, characterized in that the tread and power spiral are made of aluminum-clad steel wire. 4. The supporting clamp according to claim 1, characterized in that to prevent damage to the cable or cable, the ends of the tread wires are chamfered.

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