RU40528U1 - PIN INSULATOR - Google Patents

Abstract

Purpose: The utility model relates to the electric power industry, namely to high-voltage insulators.

SUBSTANCE: pin insulator contains an insulating part made of porcelain in the form of a skirt 4 with ribs 5, and a head 1 with a groove 2, in which a plastic cylindrical split sleeve 3 is installed. The head and skirt are made in the form of separate elements coaxially mounted relative to each other and interconnected by a sand-cement bond. The head is made of metal.

Description

The utility model relates to the electric power industry, in particular, to high-voltage porcelain pin insulators designed to insulate protected and uninsulated wires on overhead power lines and switchgears of stations and substations for voltages up to 24 kV.

The closest technical solution, we take as a prototype, is the “pin insulator” according to the patent of Russia for utility model No. 16883, Mkl.7, announced on 06.26.2000, publ. 02.20.2001, the applicant OAO Gzhel Plant "Electrical Insulator".

The insulator is made in the form of a part made of insulating material (porcelain), consisting of a skirt equipped with ribs and a central hole for attaching the pin, and made in the form of a truncated sphere of the head, in which a groove for attaching the wire is made. In this case, the insulator is equipped with a plastic cylindrical sleeve with a longitudinal slot inserted into the specified groove. The insulator is designed for a rated voltage of 20 kV

The disadvantage of this technical solution is the high complexity of the design of the groove for laying the wire (cable). Regardless of the manufacturing method, when processing a plastic or dry billet, most of the technological operations are forced to be performed manually, because design features of the insulator do not allow the full use of automation and mechanization of the process. In addition, the design of the insulator assumes a significant difference in the insulating part, which necessarily leads to additional stresses in the semi-finished product during drying due to different humidity. As a result, surface and internal cracks appear on the semi-finished product. During porcelain firing, defects appear that are not only found in previous operations. Due to the peculiarities of the chemical composition of porcelain, during the interaction of the viscous feldspar melt with other components of the mixture under the influence of temperature and a gas medium, a significant deformation of the head occurs. In this regard, it is difficult to guarantee stable

the geometrical dimensions of the groove for laying the wire within the specified limits. Thus, the quality of yield is low.

An object of the invention is to improve the quality of the insulator.

The problem is solved in such a way that in the known pin insulator containing a porcelain insulating part in the form of a skirt with ribs, and a head with a groove in which a plastic cylindrical split sleeve is installed, according to a utility model, the head and skirt are made in the form of separate elements, coaxially mounted relative to each other and interconnected by a sand-cement bond, the head is made of metal and installed with the possibility of setting the skirt.

In the lower part, the head is made in the form of a cylinder with an inverse inner cone.

The head is mounted with the possibility of support in the upper rib of the skirt.

The execution of the head of the pin insulator in the form of a separate metal part allows simple means to make it by casting on gasified models. Installing the head coaxially with the skirt made of porcelain and equipped with ribs with the possibility of grasping it, and connecting them together using a sand-cement bond makes the structure monolithic with simple installation.

The patent studies did not reveal identical and similar technical solutions, which allows us to conclude that the claimed technical solution is new. In addition, the proposed device can be manufactured on an industrial scale and will find application in electrical engineering on high-voltage power lines.

The essence of the proposed technical solution is illustrated by drawings, where: in Fig 1 - General view of a pin insulator; figure 2 - a view of figure 1.

The pin linear insulator consists of two separate parts coaxially mounted with each other: a head 1, equipped with a groove 2. in which a split plastic cylindrical sleeve 3 is installed, and a porcelain skirt 4 with ribs 5. The head 1 is made of metal, installed with the possibility of setting the skirt 4 . and connected to it by a sand-cement bond 6. At the base of the skirt 4 there is a central hole 7 for mounting

pin. The plastic split sleeve is made with beads 8. The head 1 is made by casting it according to gas-fired models.

The assembly of the insulator is as follows. First, a skirt 4 is inserted into the head 1 with bonding material 6 until it stops in the upper rib 5. In order to facilitate assembly, the inner diameter of the head at the point where the skirt is set is made with a reverse cone. After this, the ligament is densified by vibration. The composition of the ligament is known in the art. In the groove 2 of the head 1, a plastic split cylindrical sleeve 3 is installed for laying a wire or cable therein. The presence of flanges in the sleeve eliminates its displacement during installation and operation. The use of a threaded hole for mounting the support pin can be carried out by any method known in the art.

The design of this insulator reduces the scarce porcelain for its manufacture, simplifies the technology of manufacturing a metal head with a groove for installing a split sleeve under a wire or cable. This design allows you to do without mounting rollers, which reduces installation time and reduces its cost.

Claims (3)

1. A pin insulator containing a porcelain insulating part in the form of a skirt with ribs and a head with a groove in which a plastic cylindrical split sleeve is installed, characterized in that the head and skirt are made in the form of separate elements coaxially mounted relative to each other and interconnected by sand - cement bond, while the head is made of metal and installed with the possibility of covering the skirt. 2. The pin insulator according to claim 1, characterized in that the inner part of the head at the point of skirt coverage is made with inverse taper. 3. The pin insulator according to claims 1 and 2, characterized in that the head is mounted with the possibility of abutment in the upper rib.