RU197419U1 - AUTOMATIC TENSION WEDGE CLAMP - Google Patents

Abstract

The utility model relates to the electric power industry, in particular to tension clamps for hanging aluminum and steel-aluminum electric cables or wire-air power lines. The tension wedge clamp includes a housing, wedges housed in the housing, eyelets located on the sides of the housing and connected to rods. The case is made in the form of a conical sleeve with a cover. In the front part of the housing, a stopper and a guide are installed in series, supported by wedges having a conical outer surface. Between the wedges and the cover there is a spring. The wedges are made in the form of two identical parts, one of the sides of which is truncated, and the other is equipped with a mating protruding element. The technical result is the creation of an automatic tension clamp design, having a simple structure that provides simple and convenient assembly, as well as providing increased operational safety. 3 s.p. f-ly, 3 ill.

Description

The utility model relates to the electric power industry, in particular to tension clamps for hanging aluminum and steel-aluminum electric cables or wires of overhead power lines.

Known compression molded clamp (patent RU2232455), containing a steel anchor made in the form of a rod with a hole for fixing the steel core of the wire in it, an eye for attaching the clip to the support and an aluminum case with a shank for crimping the anchor with the steel core of the wire, the aluminum part of the wire and wires going to the loop. The steel anchor and the aluminum body are made with a cross section identical in shape to the cross section of the wire being mounted. The cross section Fk of the aluminum casing over the area is chosen to be large compared to the cross section Fa.пр. the aluminum part of the wire over the area so that the ratio Fk: Fa. is in the range of 1.5-5.0. Length L the extruded part of the aluminum casing is selected from the ratio Lex: Dpr = 4.5-7.3, where Dpr. - diameter of the wire being mounted.

Known wedge clamp (patent RU2368049), containing side plates, trunnions, covers, upper and lower wedges and devices for pre-tightening wedges. Traction rods are attached to the trunnions, which connect the clamp to the elements of the isolating suspension of the line by means of a finger. On the plates there are rectangular protrusions, and on the covers there are reciprocal open grooves, when assembling the clamp, the protrusions enter the grooves, forming an integral clamp housing. The wedges are equipped with segmented grooves for installing the wire (cable). To increase the grip of the wedges by the surfaces of the wire (cable), radial notches are made on the gutters.

Known wedge clamp (patent RU 2317621), selected by the applicant as the closest analogue. The specified clip consists of a U-shaped body, cover and wedges. The housing and cover are joined together by wedge protrusions, wedge surfaces and grooves. The trunnions are fixed to the body through the rods connected to the tension string of the overhead power line insulators. In the assembled position, a through wedge groove is formed between the body and the cover under the wedges, on the troughs of which segmented protrusions are made of triangular shape.

The disadvantages of the closest analogue include the complexity of the design and the high complexity of the installation of the clamp, since when assembling it, you must first disassemble the clamp and then assemble it on the wire. In addition, the presence of loose parts reduces the safety of the clamp.

The technical problem solved by the claimed utility model is to increase the reliability of the clamp, ensuring its simple and convenient installation.

The technical result is the creation of the design of the clamp tension automatic, having a simple design, providing a simple and convenient assembly, as well as providing increased operational safety.

The claimed technical result is achieved by the fact that in the known clamp wedge tensioner, including the housing, wedges placed in the housing, eyes located on the sides of the housing and connected to rods, according to the utility model, the housing is made in the form of a conical sleeve with a cover in front of the housing, a stopper and a guide are installed in series, supported by wedges having a conical outer surface, a spring is placed between the wedges and the cover, and the wedges are made in the form of two identical O parts, one of which sides is formed a truncated, and the other is provided with a protruding element mating. In addition, the clamp further comprises a second similar housing with wedges, the covers of which are rigidly connected by a bell. The eyes are elongated in a direction perpendicular to the location of the corresponding elongated holes on the rods. The wedges are provided with a recess under the wire.

The presence of a case in the form of a conical sleeve with wedges having an outer surface of a conical shape allows you to create a simple design that ensures the fixation of the wire by wedges.

The case in the form of a conical sleeve has a simple design and one-piece shape, which ensures ease of installation of the clamp on the wire and eliminates the falling parts of the clamp from a height, which increases the safety of operation and installation of the clamp.

The presence of the guide allows you to install a wire or cable between the wedges, and the stopper allows you to fix the initial and final position of the guide.

The presence of a spring between the cover and the wedges ensures the return of the wedges to their original position after installing the wire and its fixation between the wedges.

The implementation of the wedges in the form of two identical parts, one of the sides of which is truncated, and the other is equipped with a mating protruding element, helps to improve the manufacturability of the structure, and also provides a certain position of the wedges relative to each other during the laying of the wire in the clamp, thereby simplifying assembly of the product.

The execution of the eyes of an elongated shape in a direction perpendicular to the location of the corresponding holes of an elongated shape on the rods, provides the possibility of reliable fixation of the housing and rod.

The presence of wedges on the wedges under the wire allows you to reliably clamp the wire.

The essence of the utility model is illustrated by drawings, where in FIG. 1 shows a clip of a tension wedge, a longitudinal section (an example of a specific embodiment), FIG. 2 - clamp wedge tension, top view (example of a specific implementation), in FIG. 3 - section AA clamp (an example of a specific implementation).

The clamp includes a housing 1, which is a tapered sleeve. The housing may have stiffeners to provide a given mechanical strength or to remove excess heat. In the specific embodiment shown in the drawings, the housing 1 is made of cast aluminum, however, the housing can be made in any other way.

In the front of the housing 1, a stopper 2, a guide 3 and wedges 4 are installed in series, with an emphasis on the guide 3. The wedges 4 have an outer surface of conical shape. A spring 5 is placed between the wedges 4 and the cover 6.

The clamp shown in the specific embodiment of FIG. 1-3, contains a second similar housing with wedges and a cover 6. Each cover is rigidly fixed to the housing, for example, by welding. The covers 6 are rigidly connected to each other by means of a socket 7, which can also be either welded to the covers or rigidly attached by any other known method. The design of the clamp housing can be made integral.

The housing 1 is equipped with eyes 8 having an elongated shape. The eyes 8 can be made in conjunction with the housing 1 (in the form of a monolithic part, as shown in Fig. 1-3), or separately by any of the possible methods. The material of the eyes is allowed to use any one that meets the declared mechanical properties of the clamp and the requirements for wear by abrasion. In the case of manufacturing eyelets made of alloy with a coefficient of friction lower than that of steel and cast iron, installation of protection against abrasion is necessary. In this case, steel crackers 9 with crimping rings 10 are installed on the eyes. These crackers must be protected from rotation in relation to the eyes in any way. The installation of crimp rings 10 ensures non-disengagement of crackers 9. Non-disengagement can be achieved in any other way.

The lugs 8 have an elongated shape in the vertical direction, while the corresponding elongated shape has corresponding holes on the rods 11, the longitudinal direction of which is oriented horizontally along the axis of the rod 11. This shape ensures the uncoupling of the rods 11 with the eyes 8. The rods 11 are made of rolled steel with subsequent protection from corrosion. At the other end, a hole was made on the rods for subsequent assembly with the finger 12. The rods 11 together with the finger 12, the nut 13 and the cotter pin 14 form a finger-eye connection. The rod 11 can be made in such a way that a “chain” connection is formed.

The wedges 4 are made in the form of two identical parts, one of the sides of which is truncated 15, and the other is provided with a corresponding protruding longitudinal element 16. When the wedges 4 are installed in the housing 1, the wedges are engaged due to these elements, which ensures their correct position in the process of installing and fixing the wire. In addition, the wedges are provided with a recess under the wire, located longitudinally along the entire length of each wedge.

The clamp is completely made of a non-magnetic alloy, which ensures the openness of the magnetic circuit of the clamp and the reduction of magnetization reversal losses.

Mounting the clamp on the wire is as follows.

Before installing the wire in the clamp, it must be straightened and all rings and bends should be eliminated. This point is important to ensure proper wire installation. Next, the wire must be cut evenly so that all the wires are the same length. The wire is wrapped with tape near the place of the cut so that the cores lie flat. If the wire is damaged, it must be cut so that all damaged wires are removed. Next, you need to put labels on each side of the wire at a distance from the edge indicated in the installation documentation.

The wire is inserted into the guide 3 and pushed into the clamp in one smooth motion until the wire reaches the mark, which will mean that the wire is fully inserted.

During the movement of the wire inside the clamp, the guide 3 slides between the two wedges 4, pushing them apart. When the guide 3 moves along the entire length of the wedges 4, it jumps off the wedges 4 on the other hand, and the wedges 4 come back under the action of the spring 5, clamping the wire. Due to the specific section of the wedges 4 (Fig. 3), the wedges move evenly relative to each other and always occupy the correct position.

To connect with the next garland element, with the help of a smooth finger 12, the rods 11 are connected to the eyes of the housing 1, while the rods are placed perpendicular to the horizontal, and after the lugs 8 enter the holes of the rods 11, the rods are turned horizontally. The counterpart of the suspension is inserted into the formed eye of the rods 11 and fixed by installing a finger 12 and a nut 13. The connection is locked with a cotter pin 14.

The proposed clamp provides automatic "snap" of the wire or rope without the need for any mounting tool, while the clamping force is evenly distributed along the entire worn section of the wire. The clamp has a simple design, is technologically advanced to manufacture, convenient and safe during installation.

In addition, the clamp does not have loose parts, which eliminates the falling parts of the clamp from a height, increases the safety of operation and installation of the clamp.

Claims (4)

1. Clamp of a tension wedge, comprising a housing, wedges placed in the housing, eyes located on the sides of the housing and connected to rods, characterized in that the housing is made in the form of a conical sleeve with a cover, a stopper and a guide are installed in series in the front of the housing, supported by wedges having a conical outer surface, a spring is placed between the wedges and the cover, and the wedges are made in the form of two identical parts, one of the sides of which is truncated, and the other Single provided with mating protruding element. 2. The clamp according to claim 1, characterized in that it further comprises a second similar housing with wedges, the covers of which are rigidly connected by a bell. 3. The clamp according to claim 1, characterized in that the eyes are made of an elongated shape in a direction perpendicular to the location of the corresponding holes of an elongated shape on the rods. 4. The clamp according to claim 1, characterized in that the wedges are provided with a recess for the wire.

Images