RO126251A0 - Composite support insulator - Google Patents

Abstract

The invention relates to a composite support insulator meant to be used in 110 kV or 220 kV transformer stations, to fit out disconnector switches thereof, as well as in other applications where mechanical support and electrical insulation of conductors are needed. According to the invention, the composite supporting insulator has a lower steel or iron fitting (1) with a flange (f) reinforced with some ribs (g) and provided with some fixing holes (h), with an inward recess (i) that ensures the vertical positioning of the insulator which only rests on the circumference and the axial alignment thereof, and an upper fitting (4) with a cylindrical section (a) having an axial hole (b) wherein an end (k) of an insulating core (2) is fixed by crimping, and a section (l) provided with some fixing holes (m) and an internal recess (n) for resting on the circumference, in another embodiment, the insulator having an upper fitting (5) with a section (p) provided with some fixing holes (m) and a cross recess (q) of semicircular profile for clamping bars or conductors of various cross-sections with a strap (6) whose profile matches the upper fitting (5), provided with axial holes (r) and a cross recess (s) having the same radius as the recess (q) of the fitting.

Description

The invention relates to a support composite insulator used in 110 kV or 220 kV transformer stations, for equipping separators in these stations, as well as in other applications where mechanical support and electrically isolation of conductors, bars and bars are required. others like that.

Insulating supports are known to have the body made from materials based on alkali-aluminum silicates, respectively porcelains, which are fixed in glass sockets, reinforcing the bodies in sockets made of sulfur or cement paste. The glass sockets are made of cast iron, and the reinforcement is done manually and not through an installation.

These insulators have the disadvantage that they can be easily damaged due to structural defects, holes, impurities, microscopic cracks, have the possibility of accidental detachment from the metal fittings, and a deficient fixation in the socket of the insulator body, are heavy and are fragile.

The technical problem that the invention solves is to make a composite insulator support adaptable both to the separators in the transformer stations and to support bars or conductors used in these stations and the overhead power lines, with a firm support at the base and the top, as much as possible. and to provide the possibility of extension for the voltage of 220 kV compared to the construction of the insulator for 110 kV.

The support composite insulator, according to the invention, solves this technical problem and removes the above disadvantages by the fact that it has a lower reinforcement, made of steel or cast iron, with a flange reinforced with ribs and provided with some holes in the interior, having an opening. which ensures the 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 an end of the insulating core is fixed by crimping, and an upper reinforcement with a cylindrical section with a axial hole in which the other end of the insulating core is fixed by crimping, and a section ¢ -1 Ο 1 0 - ο Q 4 4 3 -.

7 -05- 2010 with a larger section provided with some holes for holes and an internal clearance for support on the circumference, and in another embodiment the insulator has an upper reinforcement with a section with a larger section with a cross-section with a semicircular profile for gripping the bars or conductors of different sections with a clamp with a profile conjugated to the upper reinforcement with a transverse clearance with the same radius as the release from the reinforcement.

By applying the invention, the following advantages are obtained:

- it has an increased stability of form and structure;

- eliminates the possibility of malfunctions due to hidden defects;

- has a smaller weight and is easier to handle when mounting.

Following is an example of embodiment of the invention in relation to Figures 1 ... 6, which represents:

Fig. 1 - view of a composite insulator supporting the voltage of 110 kV;

fig.2 - longitudinal section through the insulator according to a plane I-I, of fig.l;

Fig. 3 - view of a composite support insulator, in the second embodiment;

fig.4 - longitudinal section through insulator according to a plane II-II, from fig.3;

Fig. 5 - view of a composite insulator supporting the voltage of 220 kV;

fig.6 - longitudinal section through the insulator according to a plane III-III, from fig. 5 .

The composite support insulator, according to the invention, is composed of a lower reinforcement 1, of steel or cast iron, having a cylindrical section a with an axial hole b in which it is fixed by a crimp, on an outer surface c, an end d of a 2 cylindrical insulating core, made of glass fiber reinforced epoxy resin and an electrically insulating coating 3 with e_ strips, made of silicone rubber with a very good adhesion to the insulator core. By crimping the insulator reinforcements, moisture is prevented from entering the core reinforced with glass fibers which favors a decrease of the mechanical and dielectric properties of the insulator.

The lower armature 1 has a flange f reinforced with ribs g and having some holes h for attachment with some screws not figured, and inwards it has a clearance i which ensures the vertical positioning of the insulator which thus relies only on the circumference, and the axial centering. his.

In a first embodiment, the support composite insulator A used for equipping the 110 kV rotary separators, has an upper armature 4 with a cylindrical section a with an axial hole b in which it is fixed by crimping on the outer surface c, an end k of the insulating core 2, and a section 1 with a larger section provided with clamping holes m and an inner clearance n to create a support surface on the sides.

^ <2010-00443-ί 7 -05- 2010

In a second embodiment, the composite support insulator B used to support the bars and conductors used in stations and the 110 kV overhead power lines, is composed of a lower armature 1, an insulating core 2 with an electrically insulating shell 3 with the rails e. made of silicone rubber, and a top reinforcement 5 with a cylindrical section a with an axial hole b in which a crimping end one of the insulating core 2 is fixed by a crimp, and a section β with a larger section provided with some clamping holes m and a cross section g with semicircular profile for attaching the bars or conductors of different sections with a clamp 6 with profile conjugated to the upper reinforcement 5 with axial holes r and a cross section with the same radius as the clearance g.

In a third embodiment, the support composite insulator used to support the bars and conductors used in stations and 220 kV overhead power lines, is composed of a support composite insulator B supported by an insulator C with insulating core 2 and electrically insulating casing. 3, which has both the underside and the upper part an armature 1 to support the entire insulator on the base as well as to mount the composite support insulator B on the insulator C with screws 7 and nuts 8

Claims (2)

1. Composite support insulator, composed of cylindrical insulating core (2), made of glass fiber reinforced epoxy resin and an electrically insulating coating (3) with some strips (s), made of silicone rubber, characterized in that it has a lower reinforcement (1), of steel or cast iron, with a flange (f) reinforced with ribs (g) and provided with holes (h) for attachment, inwardly having a release (i) which ensures the vertical positioning of the insulator with only support on the circumference and its axial centering, lower reinforcement (1) provided and with a cylindrical section (a) with an axial hole (b) in which a crimping end (d) of the insulating core, and an upper reinforcement is fixed by crimping (4) with a cylindrical section (a) with an axial hole (b) in which an end (k) of the insulating core (2) is fixed by crimping, and a section (1) with a larger section provided with holes for clamp (m) and a full clearance one (n) for support on the circumference, and in another embodiment (B) it has an upper reinforcement (5) with a section (p) with a larger section with some holes (m) and a cross-section (q). with semicircular profile for attaching the bars or conductors of different sections with a clamp (6) with profile conjugated to the upper reinforcement (5) with axial holes (r) and a transverse clearance (s) with the same radius as the clearance (q) from the reinforcement . 2. Composite support insulator, according to claim 1, characterized in that, for supporting the bars and conductors used in stations and 220 kV overhead power lines, it is composed of a support composite insulator (B) with upper armature (5) with clearance (q) cross-sectional with semicircular profile for fastening the bars or conductors of different sections with a clamp (6) with conjugated profile, supported by an insulator (C) with insulating core (2) and electromagnetic coating (3), which has both at the side lower and at the top, a lower reinforcement (1), to support the entire insulator at the base as well as for mounting the composite insulator support (B) on the insulator (C) with some screws (7) and nuts (8).