CZ304482B6 - Closure of flexible current sensor - Google Patents

Abstract

The invented closure of a flexible current sensor, being intended for removable connection of the sensor ends, consists of a flexible dielectric core (1) provided with a winding (3) and a central conductor (2) anchored by electrically conducting clips (61, 62) provided at the ends of the core (1) and embedded in non-ferromagnetic sleeve connectors (51, 52). The point of contact of the sensor ends is encompassed by a ferromagnetic sleeve (4) covering the area (A) of the clips (61, 62) and faces of the sleeve connectors (51, 52) with overlap (B) to both the sides.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flexible current sensor closure for detachably interconnecting the ends of a sensor comprising a flexible dielectric core provided with a winding and a central conductor anchored by conductive tabs at the ends of the core embedded in non-ferromagnetic cavities.

BACKGROUND OF THE INVENTION

Movable current sensing devices include flexible current sensors that can be easily installed as a loop around the conductor by interconnecting the ends by means of the closure and again removed after the closure has been opened. These sensors consist of a flexible core which passes through the center conductor and is surrounded by a winding. At one end, the center conductor is connected to the winding, and at the other end, separate leads from the center conductor and from the winding to the meter. The center conductor is anchored in the clamps at both ends and the ends are embedded in cavities. The loop section in which the sleeves with the sleeves are located and in which the winding is therefore missing is inactive for reading the values and is manifested by a measurement error. Generally, the length of the inactive section depends on the required insulating strength, the desired resistance to tension applied to the locked closure and the technological design of the mechanical parts of the closure. The length of the inactive section is proportional to the current measurement error of the sensor, especially when placing the current conductor near the closure.

A solution to this problem is described in utility model CZ 17117, in which the winding missing in the inactive section is compensated by adding the corresponding number of turns in the second row at both ends of the winding. However, this solution is difficult to manufacture.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a current sensor closure which provides similar compensation at lower production costs.

SUMMARY OF THE INVENTION

This object solves the closure of a flexible current sensor intended to releasably interconnect the ends of the sensor consisting of a flexible dielectric core provided with a winding and a central conductor anchored by conductive clips at the ends of the core embedded in non-ferromagnetic cavities. Its essence is that the point of contact of the ends of the sensor is surrounded by a ferromagnetic sleeve overlapping the region of the tabs and the ends of the tubes with an overlap on both sides.

In a preferred embodiment, the sleeve is attached to one of the tubes and forms a drawer for the other tube.

Clarification of the figures in the drawing

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be further elucidated by means of the drawing, in which FIG. 1 is a schematic illustration of a flexible sensor with a closure, and FIG. 2 also schematically shows the closure itself in cross-section.

-1 CZ 304482 B6

DETAILED DESCRIPTION OF THE INVENTION

The sensor consists of a flexible core 1, through which the center conductor 2 passes and is surrounded by a winding 3. On one end, the center conductor 2 is connected to the winding 3 and at the other end separate leads 31, 32 from the center conductor 2 and from the winding 3. apparatus. The center conductor 2 is anchored at both ends in the conductive tabs 61, 62. The ends of the core 1, including the tabs 61, 62, are embedded in the non-ferromagnetic cavities 51, 52. The loop section A containing the tabs 61, 62 and in which, therefore, the winding 3 is absent, is inactive with respect to reading the values and results in a measurement error. This is compensated by the fact that the contact point of the ends of the sensor is surrounded by a ferromagnetic sleeve 4 covering the area of the tabs 61, 62 and the ends of the tubes 51, 52 with an overlap B on both sides. In another embodiment, the sleeve 4 is attached to one of the tubes 51, 52 and thus forms a socket for the other tube 52, 51.

The solution according to the invention is applicable to the construction of flexible AC current sensors in which high accuracy of current size sensing is required.

Claims (2)

A flexible current sensor closure for releasably interconnecting the ends of a sensor consisting of a flexible dielectric core (1) provided with a winding (3) and a center conductor (2) anchored by conductive tabs (61, 62) at the ends of the core (1) encapsulated in 52), characterized in that the contact point of the ends of the sensor is surrounded by a ferromagnetic sleeve (4) overlapping the area (A) of the clips (61, 62) and the ends of the tubes (51, 52) with overlap (B) on both sides. The closure of claim 1, wherein the sleeve (4) is attached to one of the tubes (51, 52) and forms a drawer for the other tube (52, 51). 1 drawing