BR202017015021Y1 - HYBRID METALLIC CABLE FIXING DEVICE IN A SUPPORT OF POWER DISTRIBUTION AIRLINES - Google Patents

Abstract

HYBRID METALLIC CABLE FIXING DEVICE IN A SUPPORT OF OVERHEAD POWER DISTRIBUTION LINES. The device comprises: two plates (10) provided, each one, with an internal face (11), provided with a longitudinal cradle (13) with a conical shaped profile and which forms a tubular housing (20) together with a longitudinal cradle (13) of the other plate (10), and an external face (12); and at least one clamping element (30), pressing one plate (10) against the other and compressing and retaining, in the tubular housing (20), an extension of a hybrid metallic cable (40). The tubular housing (20) has extreme edges (20a) arranged in respective chamfered regions (RC) of the extreme edges (10a) of the two plates (10), allowing the cable (40) to leave the device with an intense change of direction in with respect to the longitudinal axis of the housing (20), without subjecting the hybrid metallic cable (40) to inadequate curvatures to its optical fiber core (41).

Description

field of innovation

[001] The present innovation, in the nature of a utility model, concerns a fixing device, called a suspension clip for OPDC, to allow a hybrid cable, which has electrical and mechanical functions, and data transmission, containing a tubular core with at least one optical fiber and surrounded by metallic wires, covered or not, can be attached to a support support mounted, for example, on a pole of an overhead power distribution network.

Background of innovation

[002] The known hybrid conductive cables are generally formed by a plurality of metallic structural wires and electrical conductors, strung in a helical configuration around an optical core, formed by one or more optical fibers, to define a cable that is capable of both to transmit electrical energy in power distribution lines (without encumbering the mechanical characteristics of the cable), as well as being a sustaining element of the network, in addition to allowing data transmission through optical fibers, The tubular core, with one or more optical fibers, allows data traffic, whether for telecommunications or automation and control, reliably and with high availability, solving a current problem for electricity distributors, which is the detection of broken conductor cables, for example, , in addition to avoiding a major problem in current power distribution networks, namely, the need to install fiber optic cables those additional to the already existing infrastructure on the poles, occupying more space in the already excessively congested aerial network for energy distribution and telecommunications, mainly in large urban centers. Examples of these conductive cable constructions can be seen in patent documents EP 81,327, US 4,699,461, US 5,555,338 and US 6,859,590.

[003] It is well known in the art a type of cable fixing device (suspension clamp or cable gland) used to provide the fixation of a metallic cable, coated or not, of an overhead power distribution line, generally in urban areas , on a support mounted on a support pole.

[004] This type of fastening device generally comprises two identical plates, in metal alloy, placed side by side and each provided with an internal longitudinal cradle, said plates being pressed, one against the other, by an element of tightening, normally a screw and nut set passing through a central region of the plates, to compress and hold, inside the tubular housing formed by the two facing cradles, a respective extension of a metallic cable. The plates are still jointly fixed, generally by the screw and nut assembly itself, to a support, generally in the form of an arm radially fixed to a pole of the power distribution line. The plates can also incorporate, on their facing faces, bumps and recesses that are fitted together when pressing one plate against the other.

[005] These known fastening devices have internal longitudinal cradles ending in extreme edges arranged in planes orthogonal to the geometric axis of the tubular housing defined by the two facing cradles. This constructive characteristic of the known fastening devices causes a limitation to the exit or curvature angle of the metallic cable, in relation to the geometric axis of the tubular housing defined by the two longitudinal housings. The metallic cable can be submitted to micro bends, of reduced radius, without this causing any damage to the conductive characteristics of the cable.

[006] However, in hybrid metallic cables, with an optical tubular core and metallic wires with electrical and mechanical characteristics, the well-known construction with fully circular extreme edges can cause serious damage to the optical fiber core if the hybrid cable has to be curved, both during installation and after installation, at angles above 5°, when leaving the fastening device. An accentuated curvature of the hybrid cable tends to irremediably damage the optical fibers of the data transmission tubular core.

innovation summary

[007] Considering the inconvenience of the fixation devices (suspension clamp or cable gland) of the state of the art, when applied to the fixation of hybrid cables, the innovation aims to provide such type of fixation device that allows the hybrid cable to leave the device at bending angles greater than 5°, without causing any damage to the optical fibers of its tubular core.

Brief description of the drawings

[008] The innovation will be described below based on the attached drawings, presented as an example of a possible embodiment of the fixation device, and in which:

[009] Figure 1 represents a perspective view of one of the plates when seen from its inner face facing the other plate;

[0010] Figure 2 represents a front view of the external face of either of the two plates;

[0011] Figure 3 represents a front view of the inner face of either of the two plates;

[0012] Figure 4 represents a cross-sectional view of any of the plates, when taken along the line IV-IV in Figure 3;

[0013] Figure 5 represents a cross-sectional view of any of the plates, when taken along the line V-V in Figure 3;

[0014] Figure 6 represents a cross-sectional view of any of the plates, when taken along the line VI-VI in Figure 3;

[0015] Figure 7 represents an extreme view, partially cut away, of the two plates already mounted against each other;

[0016] Figure 8 represents a front view of a plate fixed and pressed on another plate and retaining a hybrid metallic cable between the longitudinal cradles; and

[0017] Figure 9 represents a median cross-sectional view of the two plates already fixed and pressed against each other, retaining a hybrid metallic cable between the longitudinal cradles and being fixed to a support to be mounted on a post not illustrated.

Description of the innovation

[0018] As illustrated in the attached drawings and previously commented, the fixing device (suspension clip for OPDC cable) in question basically comprises two plates 10, made of any suitable metallic material, arranged adjacent, side by side and provided, each with an inner face 11 and an outer face 12, opposite the inner face 11. Each plate 10 has two extreme edges 10a orthogonal to two longitudinal edges 10b.

[0019] The inner face 11 of each plate 10 is provided with at least one longitudinal cradle 13, with a conical-shaped profile and which forms a tubular housing 20 together with a longitudinal cradle 13 of the other plate 10, when said plates 10 are pressed against each other by a clamping element 30 which can take different forms.

[0020] Pressing one plate 10 against the other, compresses and retains, inside and along the tubular housing 20, a respective length of a hybrid metallic cable 40, comprising an optical core 41, formed by one or more optical fibers and surrounded by a plurality of metallic wires 42, coated or not.

[0021] As illustrated in the drawings, the longitudinal cradles 13 extend from one to the other of the two extreme edges 10a of the respective plate 10 and parallel and adjacent to one of the two longitudinal edges 10b of the respective plate 10.

[0022] According to the present innovation, the tubular housing 20, defined by two longitudinal cradles 13, mutually facing each other, have extreme edges 20a, opposite, contained, each one, in a plane orthogonal to the plane of mutual settlement of the two plates 10 and inclined with respect to the longitudinal axis of the hybrid metallic cable 40.

[0023] In the construction described above, the extreme edges 20a of the tubular housing 20 are arranged in respective beveled regions RC of the extreme edges 10a of the two plates 10, said chamfered regions RC extending to the adjacent shortened longitudinal edge 10b of the plates 10 and each of the chamfered regions RC is contained in an inclined plane between 5° and 60° in relation to the longitudinal geometric axis of the extension of the hybrid metallic cable 40, retained inside the tubular housing 20.

[0024] The chamfered regions RC on the extreme edges 20a of the tubular housing 20 allow the hybrid metallic cable 40 to leave the fixation device in question at an angle of at least 5°, without causing any damage to its optical core 41, avoiding the very common bends in known constructions devoid of chamfered regions, bends that can occur with a conventional metallic cable, but which are unacceptable in a fiber optic cable. For additional protection of the optical fibers of the hybrid metallic cable 40, the latter can receive a preformed metallic armor (not shown), specially designed to wrap an extension of the hybrid metallic cable 40, moderately retained between the two plates 10 of the fastening device and projecting it if, in opposite directions, beyond the latter. To solidify the mutual locking of the two plates 10, against relative rotational or linear displacements, the internal face 11 of each plate 10 is provided with at least one shoulder 14 and at least one recess 15, arranged symmetrically with respect to a median transverse plane from plate 10.

[0025] When the two plates 10 are pressed against each other, by actuation of the clamping element 30, the shoulder 14 of one plate 10 is fitted into the recess 15 of the other plate 10. This symmetrical arrangement of the shoulder 14 and the recess 15 allow the two boards 10 to be constructively identical.

[0026] In the exemplary construction illustrated in the drawings, the plates 10 have a central hole 16, through which the clamping element 30 is adapted.

[0027] The tightening element 30 comprises a screw 31, passing through the central hole 10 of the two plates 10 and having one end fixed to a support S of the aerial network and an opposite end receiving a nut 32 to be seated against the external face 12 of the plate 10 opposite the one adjacent to the support S. The latter can take the form of a rod mounted on a pole (not shown) of the overhead power distribution line.

[0028] Although only one configuration for the device in question has been described, it should be understood that changes to the shape of the components involved can be made without deviating from the innovation defined in the set of claims that accompanies this report.

Claims (4)

1. Hybrid metallic cable fixing device on a support for overhead power distribution lines, comprising: two plates (10) arranged adjacent, side by side and each provided with an internal face (11), having at least one longitudinal cradle (13) with a conical profile and forming a tubular housing (20) together with a longitudinal cradle (13) of the other plate (10), and an external face (12) opposite the internal face (11), wherein the cradles (13) extend from one to the other of two extreme edges (10a), opposite each other, of the respective plate (10) and parallel and adjacent to one of the two longitudinal edges (10b), opposite each other. yes, of the respective plate (10); and at least one tightening element (30) fixed to a support (S) of the aerial network and pressing one plate (10) against the other and compressing and retaining, inside and along the tubular housing (20), a respective extension of a hybrid metal cable (40), the fastening device being characterized in that the tubular housing (20), defined by two mutually facing longitudinal cradles (13), have extreme edges (20a), opposite, contained, each one, in a plane orthogonal to the plane of mutual settlement of the two plates (10) and inclined in relation to the longitudinal geometric axis of said extension of the hybrid metallic cable (40), the extreme edges (20a) of the tubular housing (20) being arranged in respective regions chamfered regions (RC) of the extreme edges (10a) of the two plates (10), said chamfered regions (RC) extending to the adjacent shortened longitudinal edge (10b) of the plates (10), each of the chamfered regions ( RC) be contained in an inclined plane between 5° and 6 0° in relation to the longitudinal geometric axis of the extension of the hybrid metallic cable (40), retained in the tubular housing (20). 2. Device according to claim 1, characterized in that the inner face (11) of each plate (10) is provided with at least one projection (14) and at least one recess (15), arranged symmetrically in with respect to a median transverse plane of the plate (10), the shoulder (14) of one plate (10) being fitted into the recess (15) of the other plate (10). 3. Device according to any one of claims 1 or 2, characterized in that the plates (10) have a central hole (16), the tightening element (30) comprising a screw (31) passing through the central hole (16) of the two plates (10) and having an end fixed to the support (S) and an opposite end receiving a nut (32) to be seated against the external face (12) of the plate (10) opposite the one adjacent to the support (S). 4. Device according to any one of claims 1, 2 or 3, characterized in that the two plates (10) are identical.

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