RU213300U1 - Stretching device - Google Patents

Abstract

The utility model relates to devices used in the field of electric power industry, in particular, when installing wires, cables and lightning protection cables on power transmission line supports (TL) or walls, roofs of buildings and structures. The tension device for capturing and holding the wire contains rods, the ends of which are pivotally connected to each other on the axis, while at the opposite ends of the rods holes are made for engaging with carabiners of the flexible holder, clamps are installed on the inner surface of the rods, fixed with bolts and corners with screws that secure the spring , and recesses with silicone gaskets are machined on these clamps. The technical result is the expansion of the arsenal of technical means. 4 w.p. f-ly, 5 ill.

Description

The utility model relates to devices used in the field of electric power industry, in particular, when installing wires, cables and lightning protection cables on power transmission line supports (TL) or walls, roofs of buildings and structures.

Carrying out installation work, for example, on an overhead line of a 0.4 - 10.0 kV overhead line for the installation of self-supporting insulated wires (SIP-2, SIP-3, SIP-4) is associated with the need to tension the wire and fix it on a power transmission line support, while span between power line supports is 70±10 m, and the weight of the wire is 120±10 kg. Hereinafter, the term "wire" means "wire", "cable", "lightning wire". It is extremely difficult to tension and hold the wire in a suspended position and perform connection and fastening operations when the electrician is at a height on the power line support.

An intermediate bracket is known (patent RU 199063 published on 08/12/2020), containing a body formed by inclined consoles closed to each other and a vertical base and made together with pairing of inclined consoles with a hook turned upwards with a transverse beam, while the base is made with a through hole and chamfers on the side ribs inside the through cutout for placing mounting tape strips in them and has a lower part extending beyond one of the inclined console and made with chamfers on the side ribs, and a reinforcing jumper is made between the inclined consoles, and the base surface repeats the shape of the support on the installation object.

This solution improves the performance of the intermediate bracket, but does not provide a tight reliable hold of the wire when it is tensioned between the power transmission line supports.

Known tension clamp for insulated overhead cable (patent RU 2646849 published 03/12/2018), containing: a loop for attachment to a stationary object, having ends, a threaded element, including a threaded rod, at least one element screwed onto the said thread , one of the ends of said rod is optionally provided with a head, a plate element having holes for attaching said ends of the loop and a through hole for said rod, at least two plate elements having a through hole for said rod, provided with longitudinal grooves for the cable, made in this way that when the plate elements are arranged in a stack, these grooves are located opposite each other and form longitudinal channels for the cable.

To fasten the cables, the nut is unscrewed, the ends of the cables are threaded into the channels formed by the grooves of the neighboring elements, and the nut is tightened, after which the clamp with the cable can be hung on a stationary object. This solution contributes to the reliability of clamping the ends of the cable, but its use during installation at a height, for example, on a power line pole, is inconvenient.

Known tension clamp for tensioning and adjusting the wires of overhead power lines (patent RU 77114 published 10/10/2008), containing a housing that has a pair of power rods, symmetrically fixed rotationally with bolts on one side on the bracket, other rod holes are rotationally mounted on the clamps, the clamps on in a curved section, having a cut notch, are also symmetrically fastened rotationally with bolts to the earring, on the reverse side all bolted connections are seized by welding, in addition, an adjusting screw is screwed in on the reverse side for laying wires along the longitudinal axis of the notch and centering wires of various diameters.

The tension clamp captures the wire with notched clamps, while the wire can slip when tensioned and mounted at a height on the power line pole, which leads to repeated tensioning and fastening actions, i.e. negatively affects the reliability and complexity of installation.

The technical problem lies in the reliability of holding the wire in a suspended position during tension and installation at a height, for example, on a power line pole.

The technical result is the expansion of the arsenal of technical means used in the installation of wires, cables, lightning protection cables at a height.

The technical result provides a tension device for capturing and holding the wire, containing rods, the ends of which are hinged to each other on the axis, while at the opposite ends of the rods there are holes for hooking the flexible holder with carabiners, clamps are installed on the inner surface of the rods, fixed with bolts and corners with screws , with which the spring is fixed, and recesses with silicone gaskets are machined on these clamps.

The pull of the tensioner is a metal bar, or a metal plate, or a metal corner.

In addition, the tension device contains a flexible holder with carabiners fixed at the ends, with the help of which the rods are hooked.

The clamps can be a metal bar or a metal plate.

Tensioning device further comprises a second flexible holder.

The proposed device is illustrated by drawings:

fig. 1 - tension device;

fig. 2 - clamp, isometric view;

fig. 3 - clamp, top view;

fig. 4 - clamp, end view;

fig. 5 - tensioner in action (wire pinched).

The tensioner for gripping and holding the wire 1 (Fig. 1, 5) contains two rods 2, the ends of which are pivotally connected to each other on the axis, for example, by a bolted connection 3, while holes 4 are made at the opposite ends of the rods 2. The rods 2 can represent a metal bar, or a metal plate, or a metal corner. Clamps 5 are installed on the inner surface of the rods 2 (Fig. 2, 3, 4), fixed with corners 6 (Fig. 1), screws 7 and bolts 8. The clamps 5 can be a metal bar or a metal plate. Clamps 5 have grooves 9 (Fig. 2, 3, 4) with a silicone gasket 10 for gripping wire 1 (Fig. 5). The spring 11 connecting the rods 2 is fixed on the corners 6 with screws 7. Two carabiners 13 are fixed at the ends of the flexible holder 12, with which the holes 4 of the rods 2 are engaged. and flexibility. The ends of the flexible holder 12 are bent, forming loops 14, and secured with cable ties or metal clips 15. The proposed device may additionally contain a second flexible holder 12, at the ends of which carabiners 13 are fixed.

The proposed device works as follows.

The wire 1 is placed between the rods 2 as shown in FIG. 1. The carabiners 13 of the flexible holder 12 engage the holes 4 of the rods 2. The electrician (not shown), being on the power line support (not shown), pulls (the direction is shown by the arrow in Fig. 1) the flexible holder 12 with the carabiners 13, which are hooked to the holes 4 rods 2. As a result of tension, the rods 2 converge (Fig. 5), while the clamps 5 installed on the rods 2, having recesses 9, tightly cover the wire 1. Silicone gaskets 10 (Fig. 2, 3, 4) in the recesses 9 prevent slipping wire 1 between the clamps 5 mounted on the rods 2. After the installation of the wire 1, the tension of the flexible holder 12 is loosened (not shown in figures 1-5), and the rods 2 diverge under the action of the spring 11, releasing the wire 1.

In the case of using the second flexible holder 12, the device operates as follows.

The wire 1 is placed between the rods 2 as shown in FIG. 1. Carabiners 13 of the first flexible holder 12 hook holes 4 of the rods 2. With one carabiner 13 of the second flexible holder 12 they hook the first flexible holder 12 (not shown in the figures), and with the other carabiner 13 they hook on the electrician's safety belt (not shown). The electrician, being on the power transmission line support (not shown), pulls the second flexible holder 12, which leads to the tension of the first flexible holder 12 with carabiners 13, which engage the holes 4 of the rods 2. As a result of the tension, the rods 2 converge (Fig. 5), while the clamps 5 mounted on the rods 2, having recesses 9 (Fig. 2, 3, 4), tightly cover the wire 1. Silicone gaskets 10 (Fig. 2, 3, 4) in the recesses 9 prevent the wire 1 from slipping between the clamps 5 of the rods 2. After the installation of the wire 1, the tension of the second flexible holder 12 is loosened (not shown in figures 1-5), which leads to a weakening of the tension of the first flexible holder 12, and the rods 2 diverge under the action of the spring 11, releasing the wire 1.

Thus, the proposed tensioner helps to securely hold the wire in a suspended position during tension and installation at a height on a power transmission line support, which expands the arsenal of existing tools used in the installation of wires, cables, lightning protection cables.

Claims (5)

1. Tension device for capturing and holding the wire contains rods, the ends of which are pivotally connected to each other on the axis, while at the opposite ends of the rods there are holes for hooking with carabiners of the flexible holder, clamps are installed on the inner surface of the rods, fixed with bolts and corners with screws, with which a spring is fixed, and recesses with silicone gaskets are machined on these clamps. 2. The tensioner according to claim 1, characterized in that the rod is a metal bar, or a metal plate, or a metal corner. 3. The tensioner according to claim 1, characterized in that it contains a flexible holder with carabiners fixed at the ends, with the help of which the rods are hooked. 4. The tensioner according to claim 1, characterized in that the clamps can be a metal bar or a metal plate. 5. Tension device according to claim 1, characterized in that it further comprises a second flexible holder.

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