Abstract: A dry power cable termination has an insulation sleeve, a silicone rubber tube and a stress control cone. The insulation sleeve has an inlet and an outlet. The silicone rubber tube is disposed over an exterior of the insulation sleeve; and the stress control cone is received within the insulation sleeve. Additionally, the dry power cable termination has a shielding sleeve, an electrode, an-electric connection assembly and a clamping pipe. The shielding sleeve is received within the insulation sleeve and fitted over an exposed segment of an insulation layer of the power cable. The electrode is received within the insulation sleeve and is electrically connected to a first end of the shielding sleeve. The electric connection assembly is received within the insulation sleeve and electrically connects a second end of the shielding sleeve opposite to the first to an exposed segment of a conductor core of the-power cable.

Abstract: A method of manufacturing an electrical rod insulator for supporting an electrical conductor and comprising an insulating core obtained by molding and having a top end and a bottom end with a bore for receiving said rod in an axial direction, and covered in a molded covering having a groove for supporting said electrical conductor, wherein the core is molded in such a manner that its outside surface defines radial ribs extending along the axial direction from the top end of the core, said ribs being spaced apart from one another by a distance that is constant and substantially equal to the thickness of the core. The method makes it possible to avoid problems associated with molding large thicknesses when making a composite insulator having better mechanical and electrical properties at low cost.

Abstract: A seal construction of a polymer insulator has a core member, an outer cover member including a sheath portion and sheds, which is arranged on an outer surface of the core member, and a securing metal fitting is arranged on each end of the core member. A tip portion of the sheath portion is arranged between the securing metal-fitting and the core member, and a sealant is arranged between an inner surface of the securing metal fitting and an outer surface of the tip portion of the sheath portion. The seal construction mentioned above includes a small rib projecting radially outward from the sheath portion of the outer cover member. The small rib has a side surface connected to an open end portion of the securing metal fitting via the sealant, and the sealant does not protrude from a portion between the side surface of the small rib and the open end portion of the securing metal fitting.

Abstract: An insulative cover is utilized to protect an insulator supporting an electrical power line relative to a support structure in an electrical power transmission system. A first end of the cover is secured to the insulator adjacent the insulator's first end and a second end of the cover is secured to the insulator adjacent to the insulator's second end. The cover defines a volume substantially enclosing a central portion of the insulator.

Abstract: A composite insulator includes an insulating rod, an elastic insulating material molded around the insulating rod and having a plurality of shed portions, and end fittings fixedly fitted around opposite ends of the insulating rod. The end fittings cover the respective end portions of the elastic material. End faces of the end fittings abut respective shed portions of the elastic insulating material.

Abstract: A heat shrinkable shed (2) is mounted on a power cable (12) and sealed thereto by a hot-melt adhesive (10). Four projections (8) are equispaced around the interior surface of the shed (2) to penetrate the adhesive (10) and to engage the outer surface of the cable (12) to enhance the longitudinal retention of the shed (2) on the cable (12), particularly under conditions of thermal cycling.

Abstract: A liquid adhesive comprising a dispersion of the following component (b) in a solution of the following component (a) in an organic solvent:(a) a piperazinylethylaminocarbonyl-containing butadiene-acrylonitrile copolymer(b) a maleimide compound having at least two maleimide groups.An insulating pattern or insulating layer is formed by applying the liquid adhesive onto an electronic part by a dispensing or screen printing method, followed by thermally curing.

Abstract: The disclosed anticorrosive insulator has an insulator body with a shed radially extending from a central core thereof and a metal cap cemented to the core of the insulator body so as to cover the core. A gap of 2-10 mm is provided between the lower end of the metal cap and the upper surface of the shed. A recess may be formed on the lower end of the cementing agent layer between the metal cap and the core of the insulator body, which recess extends away from the upper surface of the shed.

Abstract: A suspension insulator includes a compressive strain of more than 60.times.10.sup.-6 in the ceramic insulator body at least in the circumferential direction in the vicinity of the shed root of the ceramic head portion of the suspension insulator, whereby a suspension insulator causes no accidents such as separation of cap and pin of suspension insulator, line drop of power transmission lines and the like, even when shot by a rifle.

Abstract: A high voltage porcelain insulator having a glaze applied to at least a head portion of the insulator which head portion is covered by a metal fitting and a cement. The glaze essentially consists of, in terms of weight, from 64.0 to 68.0% of SiO.sub.2, from 17.5 to 19.0% of Al.sub.2 O.sub.3, from 5.0 to 6.5% of MgO, not more than 3.0% of CaO, from 2.0 to 2.8% of K.sub.2 O and Na.sub.2 O in a total amount, and from 3.0 to 9.0%, when calculated as MnO, a compound which is converted to MnO and or MnO.sub.2 after being fired at a temperature range suitable for firing porcelain.

Abstract: Assembly composed of a rod (6) and a tubular sleeve body (1), such as a terminal holder for a rod-shaped insulator core, wherein one end of the rod (6) is inserted into and retained in the interior of the sleeve. The interior of the sleeve (1) comprises a guide portion (9) of a diameter essentially corresponding to the diameter of the rod (6), and a widened portion (12) arranged inside of the guide portion (9). The end portion of the rod (6) is formed with a portion (7) of reduced diameter and a portion (8) widened therefrom towards the end of the rod. A plurality of locking bodies in the form of spheres (21) are disposed in the annular space (23) formed between the widened portion (12) of the sleeve body (1) and the rod portion (7) of reduced diameter, and in a locking position these spheres bear against the inner wall of the sleeve and the outer wall of the rod (6), these spheres being kept in place by a hardened binding agent (22) filling said annular space (23).

Abstract: An explosion-preventing suspension insulator includes an insulator body and a metal cap and a metal pin both being bonded to the insulator body by means of cement. A synthetic resin based electrical insulating film having a Young's modulus of elasticity of from 20,000 to 80,000 kgf/cm.sup.2 is provided in a specific thickness on the inner surface of the metal cap and the outer surface of the metal pin at a portion where the metal pin is buried into the cement. The preferred thickness of each electrical insulating film is from 600 to 1,500 .mu.m.

Abstract: A process for manufacturing a fiber-reinforced push or pull rod formed of electrically insulating plastic material having flange fittings fastened to respective ends thereof. The push or pull rod is formed preferably as a hollow cylinder, and the flange fittings are adapted for transmitting compression or tension forces. A plurality of threads are arranged in parallel with each other and an axis of the rod; which threads are then impregnated with a hardenable plastic material. In accordance with the invention, the tensile strength of the rod is improved by wrapping the threads about at least one pair of wires which are arranged substantially parallel and at a distance with respect to each other so as to form a tape wherein the wires form the edges of the tape. The wires, as tape edges, are inserted into helical external recesses of the flange fittings and are secured therein in a form-locking manner.

Abstract: An insulator core including a rod (20) fitted with a sheath (12) and with insulating fins (2,3) is fixed in a metal cap (10,10') by embedding the end (1) of the rod (20) in an organic embedding substance (9) in a thimble (5,5'), which has undercut zones and a flange (7) which is bonded or crimped to the sheath in a sealed manner, and embedding the thimble (5,5') in the cap (10,10') using a cheap inorganic cement (11). The thimble is coated with an anti-adhesive layer (27) which does not adhere to the embedding cement.

Abstract: An electric insulator which includes a rod (2) made of glass fibres and resin, one end of said rod being received in a fitting (1) made fast to a post (20). To improve the mechanical strength of the rod (2) in the anchoring means, a fitting (1) with a double cone recess is provided and the end of the rod has one or two grooves machined therein and is embedded in the recess in an organic substance (16). The grooves are formed only through the lower portion of the rod where the fibres are subjected to compression forces.

Abstract: A bending resistant structure includes a rod (1) which is sealed in a casing (6), said casing receiving a double frusto-conical shaped wedging member (2,3,4) which applies jamming stresses to the rod. The wedging member is formed by a resin mass (2) moulded on the end of the rod (1), a resilient cap (3) covering the resin mass (2), and a thin metal sheathing (4) shrink-fitted over the cap (3), said wedging member being sealed in an associated casing (6), the structure being particularly resistant to high bending moments. Application to electric insulators and more particularly to those of the line-post type.

Abstract: For fixing metal sheaths on glass fiber reinforced plastic rods, which rods are used, for example, in composite insulators: the sheath is in a number of sections in a longitudinal array; there is an abutment inside the sheath at each sheath section, there is a shoulder piece on the outside of the rod inside each sheath section; the abutment in a sheath section is at one longitudinal side of the respective shoulder piece in that sheath section; elastic and compliant buffer means, such as springs, or the like, are placed between the abutment and its shoulder piece; the compliance of the buffer means increases toward one end of the arrangement to compensate for the different rates of expansion of the sheath and the rod; other embodiments all have appropriate buffer means in each sheath section, which buffer means increase in compliance moving toward the end of the sheath through which the rod exits.