RO201400054U1 - Composite support-insulator - Google Patents

Abstract

The invention relates to a composite support-insulator used in transformer substations of 110 kV or 220 kV, for fitting out separators within said substations, as well as in other applications in which mechanical support and electric insulation of wires is required. According to the invention, the composite support-insulator has a lower armature (1) made of steel or iron, with a flange (f) reinforced by some ribs (g) and provided with some attachment holes (h), with a recess (i) at the inner part to secure the vertical positioning of the insulator with exclusive circumference resting and axial alignment thereof, the lower armature (1) being also provided with a cylindrical section (a) with an axial hole (b) wherein the end (d) of an insulator core (2) is fixed by crimping, and an upper armature (4) with a cylindrical section (a), with an axial hole (b) wherein an end (k) of the insulator core (2) is fixed by crimping, and a section (I) provided with some attachment holes (m) and an internal recess (n) for circumferential resting, while, in another embodiment, it has an upper armature (5) with a section (p) provided with some attachment holes (m) and a transverse recess (q) with semicircular profile, for clamping bars or wires of various cross-sections with a clamp (6) the profile of which matches the profile of the upper armature (5), provided with axial holes (r) and a transverse recess (s) having the same radius as the armature recess (q).

Description

INSULATING COMPOSITE SUPPORT

The invention relates to a composite support insulator used in the 110 kV or 220 kV transformer stations for equipping the separators in these stations as well as in other applications where it is necessary to mechanically support and electrically insulate conductors, other likewise.

There are known insulating supports which have a body of alumina and alkaline-based materials, respectively, porcelain, which are fixed in some glass sockets, the reinforcement of the bodies in the sockets being made with a sulfur or cement paste. Cup caps are made of cast iron, and reinforcement is done manually and not through an installation.

These insulators have the disadvantage that they can easily deteriorate due to structural defects, voids, impurities, microscopic cracks, have the possibility of accidental detachment from the metal fittings, and a poor fixation in the glass of the insulator body, have a heavy weight and are brittle.

The technical problem solved by the invention is to provide a composite support insulator that is adaptable both to the separators in the transformer stations and to support some bars or conductors used in these stations and the overhead power lines with a firm support at the base and the upper part and to provide the possibility of extension for the 220 kV voltage to the 110 kV insulator construction.

According to the invention, the inventive composite insulator solves this technical problem and overcomes the above disadvantages in that it has a lower steel or cast iron armature with a rib flange reinforced and provided with some holes for receiving inwardly with a recess which provides vertical positioning of the insulator with support only on the circumference and its axial centering, the reinforcement being provided with a cylindrical section with an axial hole in which one end of the insulating core is crimped and a top reinforcement with a cylindrical section with a an axial bore in which the other end of the insulating core is crimped, and a larger section section provided with some gripping holes and an inner relief for circumferential support, and in another embodiment the insulator has a top armature with a section with a larger cross section with p a semicircular plug for clamping bars or conductors of different sections with a clamp with a profile conjugated to the upper armature with a transverse recess with the same radius as the recess in the reinforcement.

By applying the invention the following advantages are achieved: - it has an increased stability of the shape and structure; - eliminates the possibility of malfunctions due to hidden vices; - has a lower weight and is easier to handle when assembling.

A further embodiment of the invention will now be described with reference to the accompanying drawings, in which: Fig. 1 is a view of a composite support for a voltage of 110 kV; FIG. 2 is a longitudinal section through an insulator taken along line I-I of FIG. 1; FIG. 3 is a view of a composite support insulator in a second embodiment; FIG. 4 is a longitudinal section through an insulator taken along line II-II of FIG. 3; FIG. 5 is a view of a composite support for 220 kV voltage; FIG. 6 is a longitudinal section through the insulator along a plane III-III of FIG.

According to the invention, the support composite insulator consists of a lower steel or iron reinforcement 1 having a cylindrical section with an axial b hole in which it is fastened by crimping on an outer surface c, a cylindrical insulating core 2 made of fiberglass reinforced epoxy resin and an insulating sheath 3 with some e made of silicone rubber with a very good adhesion to the core of the insulator. By crimping the insulating fittings, moisture penetration is prevented from the glass fiber reinforced core, which favors a decrease in the mechanical and dielectric properties of the insulator.

The lower arm 1 has a flange reinforced by some ribs g and has some holes h of attachment with some not shown screws and inwardly has a recess which ensures the vertical positioning of the insulator thus resting only on the circumference and the axial centering his.

In a first embodiment, the composite carrier insulator A used to equip the 110 kV separating separators has a top reinforcement 4 with a cylindrical section a with an axial b hole in which it is crimped on the outer surface c, of the insulating core 2 and a larger section with some gripping holes m and an inner recess n to create a support surface on the sides.

In a second embodiment, the support composite insulator B used to support the bars and conductors used in the 110 kV overhead power lines and lines is composed of a lower armature 1, an insulating core 2 with an insulating jacket 3 with e of silicone rubber and a top reinforcement 5 with a cylindrical section a with an axial b hole in which one end of the insulating core 2 is fastened by a crimping and a section with a larger cross section with some clamping holes m and transverse flanking with semicircular profile for clamping bars or conductors of different sections with a clamp 6 with a conjugate profile 5 connected to the upper armature 5 with axial holes r and a recess and transversal with the same radius as the recess p.

In a third embodiment, the composite carrier insulator used to support the bars and conductors used in 220 kV overhead power lines and lines consists of a composite support B supported by an insulator C with insulating core 2 and an insulating sheath 3, which has at both the lower and the upper part a reinforcement 1 for supporting the entire insulator on the base as well as for mounting the composite support insulator B on the insulator C with some screws 7 and nuts 8

Claims (2)

A composite support insulator consisting of a cylindrical insulating core (2) made of fiberglass reinforced epoxy resin and an insulating jacket (3) made of silicone rubber (3), characterized in that it has a a lower armature of steel or cast iron with a flange (g) reinforced with ribs (g) and provided with some gripping holes (h), and having a recess (i) for vertically positioning the insulator with (b) with a axial bore (b) in which one end (d) of the insulating core is clamped, and an upper armature (4) with a cylindrical section (a) with an axial bore (b) in which one end (k) of the insulating core (2) is fastened by crimping, and a section with a larger section provided with some holes grip (m) and an inner recess (5) with a section (p) with a larger section with some holes (m) and a transverse recess (q) (5) with axial holes (r) and a transverse recess (s) of the same radius as the recess (q) of the armature (6), with a semicircular profile for fastening bars or conductors of different sections with a clamp . A support composite insulator as claimed in claim 1, characterized in that, for supporting the bars and conductors used in the 220 kV overhead power lines and lines, it is composed of a composite supporting insulator (B) with a recessed upper reinforcement (5) (2) and an insulating core (3), which has at both the part (2) and the insulating core (2) an insulating core (2) (B) on the insulator (C) with some screws (7) and nuts (8) on the lower part of the insulator on the base as well as at the upper part.