RU2360344C1 - Tension clamp - Google Patents

Abstract

FIELD: mechanics; power engineering.

SUBSTANCE: invention refers to electrical power engineering, namely to tension clamps by means of which wires are attached to angle-tension towers of overhead transmission lines. Clamp consists of housing 2 with chute 3, hold-down strap 4, tightening bolts 5, 6 with nuts 29, and lug 7 with pin 8. Housing 2 and strap 4 have eyes 9, 10, 11 and 12 which are offset relative to axis 13 of straight-line section 14 of chute 3 of housing 2 and located relative to each other at the distance H₁=(0.25÷0.7)·H, where H - length of straight-line section 14 of chute 3 of housing 2, which is calculated depending on maximum wire diametre d_wire.max as per the following ratio: H=(4.7÷8.0)-d_wire.max. Curvature radius R of chute 3 of housing 2 is equal to curvature radius R₁ of chute 15 of strap 4. Holes 16, 17 of eyes 11, 12 of strap 4 are provided with cavities for heads 20, 21 of bolts 5, 6, and hole 16 has through slot 22. Holes 23, 24 of eyes 9, 10 of housing 2 of oval shape and their centres 25, 26 of radii are located from each other at distance a equal to (0.25÷0.3)d_bolt, where d_bolt - tightening bolt diametre. Hole 23 of eye 9 is provided with wall 28 inclined relative to vertical 27.

EFFECT: reducing metal consumption and labour input during manufacturing, and simplifying the design.

4 cl, 5 dwg

Description

The invention relates to the field of electric power and can be used as tension clamps for fastening aluminum and steel-aluminum wires to the anchor-angle supports of overhead power lines.

Known tension clamp for securing the wires of a power line, comprising a housing with a conical longitudinal cavity, in which a jamming element with a longitudinal groove under the wire with clamping elements on the tail is installed; the longitudinal groove of the jamming element is made with at least one ledge located in the rear of the jamming element in front of the clamping elements, while the height of the ledge is 0.2-0, 4 wire diameters [1].

This clamp, in its design, relates to wedge type clamps, which are characterized by disadvantages associated with the difficulties of ensuring a given clamping force of the wire, since with such a design, accurate calculation of the parameters of the jamming element, clamping elements of the clamp housing (wedge shape, wedging angle, ledge dimensions under clamping elements, the geometric correspondence of the conical cavity of the clamping case with the horizontal part of the longitudinal groove of the jamming element um clamping wires, etc.).

The closest technical solution in relation to the proposed technical solution is a tension clamp for attaching the wires of overhead power lines, comprising a housing with a curved groove, a pressure die, tightening bolts located in the holes of the body and pressure plate, and an eye of the body with a finger [2].

This clamp has the following disadvantages:

- high metal consumption and the complexity of manufacturing, due to the complex shape of the body and the die with convex-concave shaped grooves;

- multi-element clamp due to the use of several (at least two) U-bolts and four nuts;

- the complexity, multi-operation and inconvenience of mounting the clamp on the line - assembly and tightening of several tightening bolts, the unwinding of a large number of hardware (bolts, nuts, washers) when disassembling the clamp is required, and when installing it on the wire, it is necessary to tighten the bolts again.

The Applicant was faced with the task of designing a tension clamp for wires with a diameter of 12.2 ÷ 15.4 mm overhead power lines, providing a given seal strength (90% of the breaking strength of the wire), simplicity of design while achieving reduced metal consumption and laboriousness in manufacturing, simplification mounting and reducing the cost of clamping. The above-mentioned positive technical result is achieved due to a new set of essential design features of the clamp, fixed in the following claims: “a tension clamp for attaching wires of overhead power lines, comprising a housing with a curved groove, a pressure die, tightening bolts located in the holes of the housing and pressure plate, and the eye of the body with a finger; the body and the pressure plate are made with ears, and the ears of the body and the pressure plate are offset relative to the longitudinal axis of the rectilinear section of the body groove and are located relative to each other at a distance H ₁ (0.25 ÷ 0.7), where N is the length of the straight section of the body groove, calculated depending on the maximum diameter of the wire d _pr.max according to the following relation: Н = (4.7 ÷ 0.3) · d _pr.max , holes of the ears of the pressure plate, one of which is made with a through groove, have recesses under the head of the tightening bolts, and holes in the ears of the housing, one of which with an inclined wall relative to the vertical, are oval in shape with a distance a between the centers of the radii of their ovals equal to

a = (0.25 ÷ 0.3) d _bolts ,

where d _bolts is the diameter of the tightening bolt,

the radius R of curvature of the body trough is determined depending on the maximum diameter d _{pr.max of the} wire from the group of wires mounted in the clamp from the ratio R = (4.6 ÷ 6.0) · d _pr.max , and the distance L from the center of the eye hole to the end the socket of the body is calculated by the ratio L = (1.2 ÷ l, 5) · R; the angle of inclination γ of the wall of the oval hole of the housing under the tightening bolt relative to the vertical is γ = 5 ÷ 10 °; the angle α defining the boundaries of curvature of the body trough is within the range of α = 60 ÷ 75 °; the angle β formed by the horizontal line and the line passing through the center of the eyelet hole or tangent to the upper part of the body trough on the segment of the transition of the body trough into the socket is β = 15 ÷ 25 °. ”

The invention is illustrated by drawings, where figure 1 shows a main view of a tension clamp made in accordance with the present invention; figure 2 is the same as in figure 1, a side view (the die is conventionally not shown); figure 3 is a section aa in figure 2; figure 4 - clamping plate clamp in figure 1, a top view; figure 5 is a section bB in figure 4.

The proposed tension clamp for fastening aluminum and steel-aluminum wires 1 (the most common diameters range: 12.2 ÷ 15.4 mm) to the anchor-angle supports of overhead power lines consists of a housing 2 with a curved groove 3, a clamping die 4, tightening bolts 5, 6 and eyes 7 with a finger 8. The housing 2 and the pressure plate 4 have, respectively, two ears 9, 10 and 11, 12. The ears 11, 12 of the pressure plate 4, as well as the case 2, are offset relative to the longitudinal axis 13 of the rectilinear section 14 of the groove 3 of the housing 2 and are located relative to each other each other at a distance of H ₁ = (0.25 ÷ 0.7) · H, where H is the length of the rectilinear section 14 of the groove 3 of the housing 2, depending on the maximum diameter d _{pr max of} wire 1 and taken equal to H = (4.7 ÷ 8 , 0) d d _max .

The groove 15 of the pressure plate 4, by which the wire 1 is pressed against the clamp body 2, is made with the same radius R ₁ as the radius R of curvature of the groove 3 of the body 2. The holes 16, 17 of the ears 11, 12 of the pressure plate 4 have recesses 18, 19 under the heads 20, 21 tightening bolts 5, 6, while the hole 16 of the eye 11 is made with a through groove 22. The holes 23, 24 in the ears 9, 10 of the housing 2 have an oval shape with a distance a between the centers 25, 26 of the radii of their ovals equal to a = (0.25 ÷ 0.3) · d _bolts , where d _bolts are the diameter of the tightening bolt. The hole 23 in the eye 9 of the housing 2 has an inclined wall (angle of inclination γ = 5 ÷ 10 °) relative to the vertical 27 27. The length of the tightening bolts 5, 6 is selected so that when unscrewing the nut 29, for example, to the end of the length of the bolt 5 is provided complete disassembly of the clamp with the possibility of installing the wire 1 in the groove 3 of the housing 2 and, accordingly, the assembly of the clamp.

The ratio of the main geometric dimensions of the housing 2 and the pressure plate 4 are optimal from the point of view of ensuring the strength and reliability of the termination of the wire 1 in the clamp. In particular, the bending radius R of the housing 2, or in another way the radius of curvature of the groove 3, is calculated depending on the maximum diameter d _{pr.max of} wire 1 from the group of wires 1 mounted in the clamp and is

R = (4.6 ÷ 6.0) d _d.max ,

and the angle α, which determines the boundaries of curvature of the trough 3 of the housing 2, is taken within α = 60 ÷ 75 °. The distance L from the center 30 of the hole 31 for the finger 8 of the eyelet 7 to the end of the socket 32 of the clamp body 2 is determined from the ratio L = (1.2 ÷ 1.5) · R, the angle β formed by the horizontal line 33 passing through the center 30 of the hole 31 eyes 7, and tangent 34 to the surface of the upper part 35 of the groove 3 of the housing 2 (in the area of transition of the groove 3 into the socket 32) is within β = 15 ÷ 25 °.

The design features of the proposed tension clamp can significantly simplify its installation, which is carried out as follows.

The nuts 29 of the tightening bolts 5, 6 are unscrewed to their full length, and due to the oval hole 16, the through groove 22 of the eyelet 11 of the pressure plate 4 and the inclined wall 28 of the hole 23 in the eyelet 9 of the clamp housing 2, the tightening bolt 5 is free to engage clamping die 4. The tightening bolt 5 is lowered and its head 20 is held in the eye 7 of the housing 2, after which the pressing ram 4 is fully lifted into the unscrewed nuts 29 of the tightening bolts 5, 6 and rotated 90 °, as a result of which the housing 2 is released for laying prov 1 and its chute 3 arranged in the groove 3 of the housing 2 wire 1 is fixed by the pressing plates 4 in reverse the above described sequence.

The claimed tension clamp for attaching the wires of overhead power lines is easy to install, since it does not require complete disassembly (which eliminates the loss of clamp parts, especially hardware), stable termination of the wire (90% of the nominal tensile strength of the wire), and simplicity of design while reducing the intensity and complexity of manufacturing.

Information sources

1. Description of the invention to copyright certificate No. 1735955, H02G 7/02, claimed 04.17.87, publ. 05/23/92, bull. No. 19.

2. Description of the invention to copyright certificate No. 1117755, H02G 7/02, claimed September 13, 83, publ. 10/07/84, bull. Number 37.

Claims (4)

1. A tension clip for attaching wires of overhead power lines, comprising a housing with a curved groove, a compression die, tightening bolts located in the holes of the housing and the pressure die, and an eye of the housing with a finger, characterized in that the housing and the pressure die are made with ears, the ears of the housing and the pressure plate are offset relative to the longitudinal axis of the rectilinear section of the housing groove and are located relative to each other at a distance H ₁ = (0.25 ÷ 0.7) · H, where N is the length of the rectilinear portion of the housing groove, calc removable depending on the maximum diameter of the wire d _pr.max according to the following ratio: H = (4.7 ÷ 8.0) · d _pr.max , holes of the ears of the pressure plate, one of which is made with a through groove, have recesses under the head of the tightening bolt, and the holes in the ears of the body, one of which with a wall inclined relative to the vertical, are oval with a distance a between the centers of the radii of their ovals equal to: а = (0.25 ÷ 0.3) · d of the _bolt , where d of the _bolt are the diameter of the tightening bolt, the radius R of curvature of the body trough is determined depending on the maximum a _meter d _pr.max wires from the group of wires mounted in the clamp from the ratio: R = (4.6 ÷ 6.0) · d _pr.max , and the distance L from the center of the eye hole to the end of the body socket is calculated by the ratio:
L = (1.2 ÷ 1.5) R. 2. The clamp according to claim 1, characterized in that the angle γ of inclination of the wall of the oval hole of the housing under the tightening bolt relative to the vertical is: γ = 5 ÷ 10 °. 3. The clamp according to claim 1, characterized in that the angle α defining the boundaries of the curvature of the trough of the housing is in the range: α = 60 ÷ 75 °. 4. The clamp according to claim 1, characterized in that the angle β formed by a horizontal line and a line passing through the center of the eyelet hole or tangent to the upper part of the body groove at the transition segment of the body groove into the socket is equal to: β = 15 ÷ 25 °.

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