CZ31032U1 - A measuring insulator - Google Patents

Description

Technical field

The technical solution relates to a measuring insulator enabling the connection and supply of measuring and communication devices at the high voltage level, especially separately installed.

BACKGROUND OF THE INVENTION

High-voltage measuring and communication devices use separate measuring transformers or capacitive dividers or resistive dividers to measure. The power supply is either from a low-voltage network or, in the case of stand-alone installations, from a measuring transformer as a supply transformer. With the current demand for reducing the power consumption of measuring and communication equipment, the use of the above-mentioned elements at the high voltage level is demanding in terms of construction and installation, is expensive, and less reliable.

A measuring and supply insulator of cylindrical shape is known from CZ 27965 U, through which a measuring branch in which at least one measuring resistor is connected and a supply branch in which at least one supply capacitor is connected, both branches being connected at one end of the insulator to High voltage contact. At the other end of the insulator, the measuring branch is connected to the measuring contact and the power branch is connected to the power contact. Both branches are surrounded by a cylindrical screening grid connected to the ground contact at the other end of the insulator.

The disadvantage of this solution comprising a monolithic screening grid is the high sensitivity to the centering of the high-voltage circuit and the grid in the insulator body and to the occurrence of inhomogeneities occurring in the insulating material, which is negatively reflected in the manufacturing costs.

The aim of the technical solution is to design a simple device which substantially reduces the mentioned disadvantage of known measuring insulators.

The essence of the technical solution

The object is solved by a cylindrical measuring insulator through which a measuring branch in which at least one measuring resistor is connected and a supply branch in which at least one supply capacitor is connected, both branches being connected at one end of the insulator to a high-voltage contact to be connected. at the high voltage conductor and at the other end of the insulator, the measuring branch is connected to the measuring output contact and the supply branch to the power output contact, both branches being surrounded by a shield in the form of a cylindrical shielding grid. The insulator consists in that the shield is divided into two insulator-separated parts, of which the high voltage shield portion is connected to the high voltage contact and the low voltage shield portion is connected to the ground contact, the entire high voltage circuit assembly, the high voltage shield portion and the low voltage shield portion. placed in the insulator of the measuring insulator. Clarification of the drawing

The technical solution will be further elucidated by means of the drawing, in which Fig. 1 shows, in cross-section, the location of the measuring and supply branches and the screening grid in the measuring insulator with a split screening.

Examples of technical solutions

The split-screen measuring insulator of Fig. 1 is designed to measure and power measuring and communication equipment in locations without available low-voltage power supply and spatially confined areas with increased high-voltage disturbance. It is characterized by simple construction and reliable function.

The high-voltage circuit I with the high-voltage contact 2 to which the high-voltage shielding portion 3 is connected has, at its other low-voltage end, output contacts 44 and 42. The low-voltage end of the high-voltage circuit 1 is shielded by the low-voltage shielding portion 6

The whole of the high voltage circuit 1, the high voltage shielding part 3 and the low voltage shielding part 6 is located in the insulator 7 of the measuring insulator.

The high voltage circuit 1 comprises two branches, a measuring branch 11 in which at least one measuring resistor is connected and a supply branch 12 in which at least one supply capacitor is connected. The measuring branch 11 and the power branch 12 are connected at their high voltage side and are connected to the high voltage contact 2. The measuring branch 11 is connected at its low voltage side to the measuring output contact 41 and the power branch 12 is connected at its low voltage side to the power output contact 42 .

By dividing the high voltage circuit I shifts into the high voltage shielding part 3 and the low voltage shielding part 6, the centering requirements of the high voltage circuit 1 in the high voltage shielding part 3 and the low voltage shielding part 6 are reduced, as well as the influence of inhomogeneities and cavities with high probability, they can arise in the insulating material 7 at both ends of the high voltage circuit 1. The high voltage part 3 of the shunt is connected to the high voltage contact 2 and the low voltage part 6 of the shield is grounded through the ground contact 5.

Claims (1)

PROTECTION REQUIREMENTS A cylindrical measuring insulator through which a measuring branch (11) in which at least one measuring resistor is connected and a power branch (12) in which at least one power capacitor is connected, both branches (11, 12) being one end of the insulator is connected to the high voltage contact (2) to be connected to the high voltage conductor, and at the other end of the insulator the measuring branch (11) is connected to the measuring output contact (41) and the power branch (12) is connected to the power output contact (42) the two branches being surrounded by a shield in the form of a cylindrical shielding grid, characterized in that the shield is divided into two insulator-separated portions (3, 6) of which the high-voltage shielding portion (3) is connected to the high-voltage contact (2) and the low-voltage portion (6) the yoke is connected to ground contact (5), wherein the entire high voltage circuit assembly (1), high voltage Part (3) of the shield and the lower part (6) of the shield is positioned in the insulating materials (7) measuring the insulator.