RU2743137C1 - Tension clamp - Google Patents

Abstract

FIELD: electric power industry.SUBSTANCE: invention relates to the electric power industry, namely to tension clamps for conductors in the form of wires, cables and ropes of overhead power lines, as well as cables of overhead optical communication lines. Tension clamp consists of an outer case with at least one pipe, equipped with the inner case with conical shape, the node, connecting it with other suspension components, bushing located in the inner case, consists of at least one part, and made with conical split collet. Moreover, the cavity of the bushing is made corresponding to the cross-section of the clamped conductor. At the end of the bushing is a spring that rests against the limiter. Inner case has a funnel made of insulating material into the groove of which a centering glass is inserted, holding the end of the conductor and designed for carrying conductor through the bushing. At the same time, elements are applied to the surface of the bushing that ensure guaranteed fixation of the conductor due to a higher degree of coupling of the conductor to other parts of the clamp.EFFECT: invention provides a tension clamp, which belongs to the class of linear fittings, mounted without expensive technology of pressing the conductors in the clamps, and will allow getting a product that is simpler in design, ease and convenience of installation.5 cl, 3 dwg

Description

The invention relates to the field of power engineering, namely to tension clamps for conductors in the form of wires, cables and ropes of overhead power lines, as well as cables of overhead optical communication lines.

Known tension crimp clamp for fixing steel-aluminum wires to anchor and anchor-angular supports of overhead power lines, containing a steel anchor made in the form of a rod with a hole for fixing the steel core of the wire and an eyelet for fastening the clamp to the support, and an aluminum body with a shank for crimping the wire going into the loop [1].

In this known technical solution, the clamping of the wire in the tension clamp is carried out using a standard crimping technique. This crimping technology is widely used in the practice of electric power construction and is currently the main technology for fastening wires (ropes, cables) in tension, connecting, return and other clamps. Nevertheless, the technology of crimping at open power facilities, in particular overhead power lines, overhead optical communication lines, is costly in both cost and time terms (expensive pressing equipment, a wide range of selection of round and hexagonal dies, strictly punctual technological sequence of crimping elements linear reinforcement, etc.). Designers and developers are now aggressively looking for a worthy equivalent to compressible linear rebar. The inventive tension clamp is just intended for this purpose, since it is mounted without the technology of crimping the wire in the tension clamp.

There is also known a tension compression clamp designed for fastening to a support of overhead power lines of aluminum and wires made of aluminum alloys, containing a housing made in the form of a pipe made of aluminum and aluminum alloys, round or round with parallel flats, or oval, an anchor, connected to the body by crimping and having an eyelet for connecting the clamp to the elements of the insulating suspension line [2].

This tension clamp, like the similar above mentioned clamp, belongs to the category of linear compression fittings and, therefore, in comparison with the claimed one, does not stand up to criticism in terms of its cost.

The closest technical solution in relation to the proposed one is an anchor clamp for fastening wires, containing a holder, a housing with a tapered hole and a collet installed in it with longitudinal cuts from the large diameter side, characterized in that the collet is made with a protrusion located on the outer surface at the end collets with cuts and interacting with the body at maximum clamping load [3].

This anchor clamp is intended only for securing wires of overhead power lines, while when using it to fasten cables, ropes of overhead power lines, as well as cables of overhead optical communication lines, as practice has shown, problems may arise in the clamp with ensuring guaranteed reliable fixing the conductor during long-term operation.

The applicant and the authors were faced with the task of developing a tension clamp for conductors in the form of wires, cables and ropes of overhead power lines, as well as cables of overhead optical communication lines, which would be mounted without using the technology of fixing wires (cables, cables) by means of crimping technology, while it was necessary to provide the same or higher technical characteristics (operational reliability, standard strength of wire termination (cable, cable), simplicity of design, ease and convenience of installation on lines, etc.), as in known tension crimps and other types of clamps * a positive technical result was achieved due to the combination of essential design features of the claimed tension clamp, presented in the following claims: "tension clamp for conductors in the form of wires, cables and ropes of overhead power lines, as well as cables of overhead optical communication lines, consisting of external its body in the form of at least one pipe, equipped with an inner body of a conical shape, a connection unit with other suspension elements, a bushing located in the inner body, made of at least one part and made of a tapered split collet, and the cavity of the sleeve made corresponding in cross-section to the clamped conductor; there is a spring at the end of the sleeve; abutting against the limiter, the inner case has at the end a funnel made of insulating material, into the groove of which a centering cup is inserted, which accommodates the end of the conductor and is designed to guide the conductor through the bushing, while the surface of the bushing has elements that ensure guaranteed fixation of the conductor due to a high degree of adhesion of the conductor to other parts of the clamp; the joint of the body with other suspension elements is made according to the "finger-eyelet" type or according to the chain type; the centering glass is a shrink cap; at least one exit point of the conductor from the housing is processed; the elements applied to the surface of the sleeve and ensuring the guaranteed fastening of the conductor due to the higher degree of adhesion of the conductor to other parts of the clamp are made in the form of notches, or in the form of bulges or in the form of an abrasive glued to the surface.

The essence of the invention is illustrated by drawings, where FIG. 1 is a general view of the tension clamp made according to the present invention, front view perpendicular to the conductor; in fig. 2 is a view along arrow AA in FIG. one; in fig. 3 - the same as in FIG. 1, top view.

The claimed tension clamp for conductors 1 in the form of wires, cables and ropes of overhead power lines, as well as cables of overhead optical communication lines, consists of an outer casing 2 in the form of a pipe and a sleeve 3. The clamp is equipped with an inner casing 4 of a conical shape inserted into the outer casing 2 The inner case 4 has a plastic funnel at the end 5. A guide cap (or centering cup) 6 is inserted into a special groove of the plastic funnel 5, designed to prevent the conductor 1 from fluffing up during installation and passing through the clamp.

The outer casing 2 is connected to other suspension elements or engineering structures (not shown) using connection nodes. Such nodes of connection can be made in the "finger-eye" type, in the chain type, and the like. In the described embodiment, the outer body 2 of the tension clamp is connected to other elements of the suspension or some other engineering structure by means of a U-shaped bracket 7, which is located with its arc part 8 in the groove of the thimble 9, and by straight segments (branches) 10 fixed in the ears 11 of the outer body 2 by means of bolts with nuts and washers 12.

The sleeve 3 is located in the outer housing 2, is made of one or more parts and is made of a tapered split collet. At the end of the sleeve 3 there is a spring 13, which abuts against the stopper 14. The cavity of the sleeve 3 is made corresponding to the cross-section of the conductor to be clamped 1. Notches (bulges) 15 are applied to the surface of the sleeve 3 or an abrasive is glued to ensure reliable guaranteed fastening of the conductor in the tension clamp due to a higher degree of adhesion of the conductor to the clamping elements.

If the composition of the clamp in the kit to the sleeve 3 can include a centering sleeve 6, then, as an option, the centering sleeve 6 can be made in the form of a shrink cap.

One or more points of exit of the conductor 1 from the outer housing 2 can be subjected to any technological types of processing (machining on machines, heat treatment, electroplating, galvanizing, etc.).

The invention works as follows:

Installation (connection) of the tension clamp with other elements of the suspension or some other engineering structure is carried out using a U-shaped bracket 7, located with its arc part 8 in the groove of the thimble 9 and straight segments (branches) 10 fixed in the ears 11 of the outer body 2 by bolts with nuts and washers 12 (depending on the configuration of the line, there may be other means of mounting, for example, by means of a pin and rods). Then the inner case 4 is inserted into the outer case 2, the conductor 1 is inserted into the clamp from the side of the plastic funnel 5 of the inner case 4, that is, from the narrow side of the clamp, and is pushed through the clamp through. In this case, the length of the conductor 1 required for the branch plus the length of the outer body 2 of the clamp is determined, and the conductor 1 is pulled out from the exit side of the clamp (the wide side of the clamp, where the U-shaped bracket 7 is). To fix the conductor 1 in the clamp, it is pulled forward from the side of the plastic funnel 5 of the inner case 4 until the required tension of the conductor 1 is fixed in the span of overhead power lines.

The required amount of tension is achieved due to the principle of collet clamping of the conductor 1 in the clamp with two cut collet parts of the sleeve 3. During installation, the conductor 1 is pushed through the plastic funnel 5 of the inner case 4. The guide cap (or centering cup) 6 inserted into a special groove of the plastic funnel 5 held in the inner case 4 due to the fact that it is supported and not allowed to fall inside the two cut collet parts of the sleeve 3. After passing the guide cap 6, the conductor 1 begins to move and expand the inner cut collet parts of the sleeve 3, which in turn compress the spring 13 located immediately behind them. As soon as the hole between the inner cut collet parts of the sleeve 3 becomes sufficient for the conductor 1 to pass between them, it begins to advance faster in the clamp. Meanwhile, the spring 13 prevents the cut collet parts of the sleeve 3 from moving further with the conductor 1 and pushes them forward to the stop 14. Ultimately, the conductor 1 with the guide cap 6 put on it comes out from the side of the clamp opposite from the plastic funnel 5. Then measure the required length of conductor 1 for its branch, adding to it the length of conductor 1 that will be needed to clamp it in the clamp, for which the conductor 1 is pulled in the opposite direction until the cut collet parts of the sleeve 3 "bite" on the conductor 1 with the help teeth specially provided for this purpose, and will not fit into the spacer with the outer body 2, jamming the conductor 1 inside and preventing it from slipping further.

In addition to the above description of the action of the internal elements of the clamp, it is necessary to describe the principle of interaction of the tension clamp with external objects with which it is connected (supports of overhead power lines and other engineering electrical power structures). The principle of this interaction is as follows. On one side of the outer body 2 of the clamp, the inner body 4 of a tapered shape is inserted. On the other side of the outer body 2, a U-shaped bracket 7 is attached with its straight segments (branches) 10. At the same time, the taper of the holes in the outer body 2, to which the U-shaped bracket 7 is attached, must exactly match the taper of the inner body 4. With this correspondence , when we insert the inner case 4 into the outer case 2, the greatest contact of the surfaces to be connected is ensured, and when the outer case 2 is fastened with a bracket on the support of the overhead power line, and the conductor is under tension, the outer case 2 and the inner case 4 are wedged in one another and lose the ability to move relative to each other, which allows for reliable fastening of the conductor in the tension clamp for the entire long period of its operation.

The proposed tension clamp for conductors in the form of wires, cables and ropes of overhead power lines, as well as cables of overhead optical communication lines, belongs to a new class of linear fittings, mounted without the well-known and currently most common technology for crimping conductors in clamps, but rather expensive. The introduction of the claimed tension clamps into the practice of power grid construction will allow obtaining a product with the same characteristics (and even higher) as for linear fittings mounted using the pressing technology, but less expensive, due to the lack of the need to use pressing equipment, simpler in design , ease and ease of installation on the lines. '

Sources of information:

[1] Description of the invention to the patent of the Russian Federation No. 2232455 "Tension pressing clamp", H02G 7/02, declared 04.04.2003, published 10.07.2004.

[2]. Description of the invention to the patent of the Russian Federation No. 2711333 "Tension pressing clamp (Options)", H02G 7/02, declared 01.22.2018, published

[3] Description of the utility model to the patent of the Russian Federation No. 13521 "Anchor clamp", H02G 1/04, declared on 15.11.1999, published on 20.04.2000.

[4] Description of the invention to the patent of the Russian Federation No. 2360344 "Tension clamp", H02G 7/02, declared on April 15, 2008, published on June 27, 2009.

[5] Description of the invention to the patent of the Russian Federation No. 2368049 "Tension wedge clamp", H02G 7/02, declared on 11.09.2008, published on 20.09.2009.

[6] Description of the invention to the patent of the Russian Federation No. 2317621 "Tension wedge clamp", H02G 7/02, declared 04.10.2006, published 20.02.2008.

Claims (5)

1. Tension clamp for conductors in the form of wires, cables and ropes of overhead power lines, as well as cables of overhead optical communication lines, consisting of an outer casing in the form of at least one pipe, equipped with an inner conical casing, a connection unit with other suspension elements, bushing located in the inner case, made of at least one part and made of a tapered split collet, and the cavity of the bushing is made corresponding to the cross-section of the clamped conductor, characterized in that at the end of the bushing there is a spring abutting against the limiter, the inner case has at the end a funnel made of insulating material, into the groove of which a centering cup is inserted, which contains the end of the conductor and is designed to pass the conductor through the bushing, while the surface of the bushing contains elements that ensure guaranteed fixation of the conductor due to a higher degree of wire adhesion same with other parts of the clamp. 2. The clamp according to claim. 1, characterized in that the unit for connecting the body with other suspension elements is made according to the "finger-eye" type or according to the chain type. 3. The clamp according to claim 1, characterized in that the centering glass is a shrink cap. 4. The clamp according to claim. 1, characterized in that at least one point of exit of the conductor from the housing is processed. 5. The clamp according to claim 1, characterized in that the elements applied to the surface of the sleeve and ensuring the guaranteed fastening of the conductor due to a higher degree of adhesion of the conductor to other parts of the clamp are made in the form of notches, or in the form of bulges, or in the form of glued to abrasive surface.

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