RU96293U1 - INSULATION ELEMENT FOR CABLE FIXING - Google Patents

Abstract

 1. An insulating element for attaching a cable, including bases and a hyperboloid-shaped side surface, characterized in that the outer side surface is divided into two longitudinal parts, the radius of curvature of the generatrix of one part of the side surface exceeds the radius of curvature of the generatrix of the other part of the side surface, the bases are connected through a longitudinal hole with the formation of an internal cavity of a hyperboloid-shaped form. ! 2. The insulating element according to claim 1, characterized in that the outer side surface is made with end cylindrical sections.

Description

The utility model relates to electrical engineering, can be used for fastening and laying cables, in particular in the nodes of fastening bundles of cables made of cross-linked polyethylene with a triangular arrangement of cables.

Known holder for mounting cables or tires on.with. USSR No. 970530, H02G 3/26, 1982, containing insulating elements in the form of cylindrical rollers provided with a groove on the side surface. At the end of the insulating element, protrusions are made with open axial grooves in which bolts are installed to fix the insulating elements. The disadvantage is the high complexity of the cable laying process associated with the presence of a large number of bolted connections. In addition, when using this device, only parallel laying of single cables is possible, that is, laying of a bundle of cables is not provided and the use of cables of various diameters is not provided.

In the device for laying the cable according to A.S. No. 1089681, Н02G 1/00, 1984, cables passing under the insulating elements made in the form of rolling rollers are pressed by the strip of the shelf. The disadvantage is the need to replace the rollers when using cables of different diameters, unreliable fixation with a strip of cables of different diameters, the inability to lay the bundle of cables according to the "triangle" scheme.

A device for fastening a cable according to the patent of the Russian Federation No. 2286633, H02G 3/32, 2006 is known. The device is intended for fastening cables made of cross-linked polyethylene. Including, according to the "triangle" scheme. The insulating elements are made in the form of a parallelepiped with a groove in two opposite planes. The middle part of the groove is made of a trapezoidal shape with an upper base to the center of the parallelepiped. A U-shaped locking element extends through an insulating element located at the apex of the triangle. A straight portion of the cup-shaped portion of the fixing element is placed inside the insulating element. The disadvantage is the complexity of installation associated with the installation of the fixing elements inside the insulating elements at the top of the "triangle". Uneven compression force of the cable laid in the trapezoidal recess, reduces the reliability of the cable.

As the closest analogue to the claimed technical solution, the device for fastening the cable according to the patent of the Russian Federation No. 2349009, H02G 3/30, 2009 is selected. The insulating elements of the device are made with a groove and a longitudinal groove. The latches, which are plates, are installed in the grooves of the insulating elements. Clamps in the form of plates are installed in the grooves of the insulating elements. The disadvantage is the clamping of the cable made of cross-linked polyethylene with a retainer plate, which can lead to damage to the cable insulation. In addition, the process of installing and removing plates from the grooves is quite complicated, because, over the entire length of the cable laying on the overpass, there are many attachment points and when using cables of different diameters, storage and selection of plates for the corresponding grooves is necessary.

The technical result is to increase the manufacturability of fastening and replacing cables of various diameters, increasing the reliability of the cables.

The technical result is achieved due to the fact that in the insulating element for fastening the cable, including the base and the hyperboloid-shaped side surface, according to the utility model, the external side surface is divided into two longitudinal parts, the radius of curvature of the generatrix of one part exceeds the radius of curvature of the generatrix of the other part of the side surface, base connected by a through, longitudinal hole with the formation of an internal cavity of hyperboloid shape. The outer side surface is made with end cylindrical sections.

The technical result is achieved by dividing the outer side surface of the insulating element into two longitudinal parts with different radii of curvature of the surface of the hyperboloid. When the insulating element is rotated through 180 °, the radius of the surface pressing the cable is changed. Thus, one insulating element can be used for fastening cables of larger and smaller diameters. The connection of the bases through a longitudinal hole with the formation of an internal cavity of hyperboloid shape allows the use of a U-shaped fixing element without straight sections at the apex of the "triangle", which simplifies the assembly and installation of the entire cable mount. The ability to rotate the insulating element on a fixing U-shaped element as on an axis allows a simple rotation of 180 ° to replace the clamp radius, which greatly simplifies the process of replacing a cable of one diameter with a cable of another diameter, making it possible to locally replace only one cable or one bundle, without dismantling adjacent ones branches. The implementation of the outer lateral surface of the insulating element with end cylindrical sections eliminates the incision of its sharp ends into the cable insulation surface of cross-linked polyethylene. Due to the contact of the cable with an obtuse angle, there is no damage to the cable sheath, the reliability of its operation increases.

The figure 1 shows a longitudinal section of an insulating element.

The figure 2 presents a cross section of an insulating element.

The figure 3 presents the diagram of the cable laying "triangle".

The insulating element is made as a one-sheeted hyperboloid of revolution with a lateral curved surface 1, with end cylindrical sections 2, bases 3, a longitudinal, through, central hole 4. The lateral curved surface 1 is divided into two longitudinal parts 5 and 6 with radii of curvature R1 and R2. Cables 7, laid according to the "triangle" with the help of insulating elements 8 are attached to the base 9.

The device operates as follows.

Cables 7 are laid on the base 9 according to the "triangle" pattern and pressed using insulating elements and a U-shaped clamp 8. If necessary, replace cables of one diameter with cables of another diameter loosen the threaded fastening of the locking element 8, pull it out or remove it and turn the insulation elements on 180 °. Insulating elements are made with a combination of surfaces for cables with a diameter in the range from 25 to 84 mm, in particular there is a combination of 50/85 mm. The implementation of the through hole 4 with the formation of the internal cavity of the hyperboloid-shaped form makes it easy to insert the fixing element 8 into it, and provides reliable pressing of the insulating element to cables of different diameters without damaging the insulation. The execution of cylindrical belts 2 cut off the sharp corners of the ends of the insulating elements. The obtuse angle formed in this case at the transition point of the curved surface 1 to the cylindrical surface 2 does not damage the cable insulation.

Thus, the utility model allows to increase the manufacturability of the processes of fastening and replacing cables of various diameters, to increase the reliability of the cables.

Claims (2)

1. An insulating element for attaching a cable, including bases and a hyperboloid-shaped side surface, characterized in that the outer side surface is divided into two longitudinal parts, the radius of curvature of the generatrix of one part of the side surface exceeds the radius of curvature of the generatrix of the other part of the side surface, the bases are connected through a longitudinal hole with the formation of an internal cavity of a hyperboloid-shaped form. 2. The insulating element according to claim 1, characterized in that the outer side surface is made with end cylindrical sections.