SK442018A3 - Apparatus for checking electrical cable parameters and method of determining ultrasound speed in cable jacket and / or in electrical cable insulation - Google Patents

Abstract

Device for checking the parameters of the electric cables is designed so that behind of the device (7) for construction of the electric cable (8) is placed ultrasound probe (12) measuring the thickness of the electrical cable casing (8) and / or before device (5) for further processing and modification of the electrical conductors (2) are placed ultrasonic probes (11) for measuring the thickness of insulation (4) of electric conductors (2). Outputs of ultrasound probe (12) measuring the thickness of the jacket (10) of the electrical cable (8) and / or the outputs of the ultrasonic probes (11) for measuring the thickness of insulation (4) of electric conductors (2) are connected to an ultrasonic meter (13) of the thickness of the jacket (10) of the electric cable (8) or the thickness of insulations (4) of the electrical conductors (2). The method for determining the velocity of the ultrasound propagation in the electrical cable jacket or in the insulation of the electric conductors by apparat is based on the fact that the velocity (v) is calculated from the known thickness (l) jacket of the cable (8) or the insulation (4) of the electrical conductors (2), from the ultrasound propagation velocity (v ') set on the ultrasonic device (13) for measuring thickness and from the thickness (l') of jacket (10) of the electric cable casing (8) or insulation (4) of the electrical conductors (2) measured by the ultrasonic meter (13) of the thickness at a set velocity (v ') of the ultrasound propagation.

Description

Technical field

The invention relates to a device for checking the parameters of electric cables and to a method for determining the rate of ultrasound propagation in a sheath and / or insulating electric cable conductors. The invention relates to the production of electric cables.

BACKGROUND OF THE INVENTION

A large number of parameters are currently being checked for electrical cables (eg electrical cable insulation resistance and flammability of polymer components). The device for measuring the insulation resistance of electrical cables is generally known today. In the simplest variant, it is formed by a power supply and an ammeter One output of the power supply is connected to one conductor of the electric cable and the other output of the power supply is connected via an ammeter to the other conductor of the electric cable. From the known value of the electrical voltage of the power source and the current measured by the ammeter of the carbon black law, it determines the insulating resistance of the electric cable. The flammability of the polymer components is most often determined on an oxygen limit number determination device. The device for determining the limit oxygen number is according to [ISO 4589-2: 2017, Plastics: Determination of buming behavior oxygen index. Part 2: Ambienttemperature test, 2017, Geneva: Intemational Organization for Standardization] consisting mainly of a quartz glass cylinder into which a mixture of oxygen and nitrogen is fed at its bottom (the oxygen concentration in the mixture can be adjusted continuously), in the lower third of the cylinder a quartz glass is a sample holder in which the sample is held. In the upper part of the quartz glass cylinder there is a burner, which exposes the sample at its upper edge. The minimum oxygen concentration in a mixture with nitrogen at which the sample can be ignited is a limiting oxygen number.

A common disadvantage of the devices described above, as well as virtually all of the devices known today, is that they do not allow continuous monitoring of the components from which the electric cables are made, but only allow the inspection of the already manufactured electric cables.

These shortcomings, in part or in full, have provided an opportunity to address this problem by appropriate technical means. As a result, an apparatus for controlling electrical cable parameters and a method for determining the ultrasonic propagation rate in a sheath and / or in an electrical cable conductor according to the present invention are described below.

SUMMARY OF THE INVENTION

The above-mentioned drawbacks are substantially eliminated by the electrical cable control device and the method of determining the ultrasonic propagation rate in the sheath and / or the insulation of the electrical cable conductors.

A device for checking electrical cable parameters consists of a device for the production of electrical conductors or a stack of electrical conductors, from which the electrical conductors are routed to a set of equipment for further processing and conditioning of electrical conductors, from which the electrical conductors are suitable for the manufacture of electric cables, the output of which is an electric cable.

The principle of the electric cable control device according to the invention consists in that an ultrasonic probe for measuring the thickness of the electric cable sheath is placed downstream of the electric cable production device and / or before the device for further processing and modification of electric conductors . The output of the ultrasonic probe for measuring the thickness of the electric cable sheath and / or the outputs of the ultrasonic probe for measuring the thickness of the electric wire insulation are connected to an ultrasonic thickness gauge of the electric cable or insulation of the electric conductor.

The principle of the method for determining the ultrasonic propagation speed in a sheath and / or the insulation of electric cable conductors according to the invention consists in that the velocity in the ultrasonic propagation in the sheath of the electric cable or in the insulations of the electric conductors of electric cables is determined from:

the known thickness 1 of the sheath of the electric cable or the insulation of the electric conductors;

the ultrasonic spread rate set on the ultrasonic thickness gauge;

- the thickness l 'of the sheath of the electric cable or of the insulation of the electric conductors measured by an ultrasonic thickness gauge at a set velocity in the ultrasonic propagation according to the relation:

v = v 'irs (i.

The method of determining the ultrasonic propagation rate in the sheath and / or in the electrical cable insulation uses an indirect measurement of the ultrasonic propagation rate in the electrical conductor insulation and in the electrical cable sheath that meets the required characteristics and parameters (e.g. fire reaction class, additional fire reaction classifications, insulation resistance, electrical strength, resistance to specified environmental influences; and

N E 44-2018 Α3 pod). The ultrasonic propagation velocity thus determined is compared with the ultrasonic propagation velocity in the electrical conductor insulation and in the electrical cable sheath, measured continuously, semi-continuously or discontinuously during electrical cable production. Variation in ultrasonic propagation rates compared to values determined for a cable meeting the required characteristics and parameters indicates variation in the manufacturing process (eg poor feedstock, incorrectly set melting temperature of the material from which the electrical conductor insulation or electrical cable sheath is made, variation in composition or the amount of additives, etc.) which may cause the loss of the desired properties and parameters of the electrical cable. The ultrasonic propagation rate is measured indirectly by means of an ultrasonic thickness gauge. At the known insulation thickness of electric conductors or sheath of electric cable l (m), the ultrasonic propagation speed v (ms j, calculated from the ultrasonic velocity v 'u.s.s) set on the ultrasonic thickness gauge and insulation sheath of electric cable l (m) ) measured by an ultrasonic thickness gauge.

The advantages of the electrical cable control device and the method of determining rapidly the ultrasound propagation in the sheath and / or the insulation of the electric cable conductors according to the invention are evident from the effects they exert on the outside. The originality of the present solution is that the deviation in ultrasonic propagation rates compared to the values determined for a cable meeting the required characteristics and parameters indicates a deviation in the manufacturing process (eg poor quality feedstock, incorrectly set melting temperature of the material from which electrical wire insulation is made or electrical cable sheath, deviations in the composition or amount of additives, etc., which may cause the loss of the required properties and parameters of the electrical cable.

BRIEF DESCRIPTION OF THE DRAWINGS

The apparatus for checking electrical cable parameters and the method for determining the ultrasonic propagation rate in the sheath and / or the insulation of the electrical cable conductors according to the invention will be explained in more detail in the drawing, where the overall arrangement of parts of the apparatus is shown in a side partial view.

DETAILED DESCRIPTION OF THE INVENTION

It is to be understood that particular embodiments of the invention are presented for illustration and not as a limitation of particular embodiments. Those skilled in the art will find or will be able to ascertain many equivalents to specific embodiments of the invention using no more than routine experimentation. Such equivalents will also fall within the scope of the following claims. For those skilled in the art, the optimal design of the structure and the selection of its elements cannot be a problem, therefore these features have not been solved in detail.

Example 1

In this example of a specific embodiment of the invention, a device for checking the parameters of the electric cables as shown in FIG. It is formed by a device 1 for the production of electric conductors 2 or a stack of electric conductors 2, from which the electric conductors 2 are led to a device 5 for further processing and treatment of electric conductors 2, from which the electric conductors 2 in a form suitable for The electric cable 2 consists of cores 3 of electric conductors 2 and insulations 4 of electric conductors 2. The produced electric cable 8 consists of cores 3 of electric conductors 2, insulations 4 of electric conductors 2, fillings 9 and the sheath 10. The propagation velocities of the ultrasound in the insulations 4 of the electric conductors 2 are indirectly sensed by the ultrasonic probes 11 of the insulation thickness 4 of the electric conductors 2. The velocity of the ultrasonic propagation in the housing 10 of the electric cable 8 is indirectly sensed by the ultrasonic probe 12. 8. The ultrasonic probes 11 of the insulation thickness 4 of the electric conductors 2 and the ultrasonic probe 12 of the thickness of the sheath 10 of the electric cable 8 are connected to an ultrasonic thickness gauge 13 which continuously, semicontinuously or discontinuously measures the insulation thickness 4 of the electric conductors 2 and the sheath 10.

Example 2

The method of determining the ultrasonic propagation speed in the sheath and / or in the electrical cable conductor insulation is based on the fact that the ultrasonic propagation speed is calculated from the known insulation thickness 4 of the electrical conductors 2 and the electrical cable sheath 10, from the set ultrasonic propagation speed v on the ultrasonic meter. 13 of the thickness and of the insulation thickness l 'of the 4 electrical conductors 2 and the sheath 10 of the electric cable 8 measured by an ultrasonic meter 13 according to the relationship:

l

N E 44-2018 Α3

Industrial usability

The device for checking electrical cable parameters and the method of determining the ultrasonic propagation rate in the sheath and / or in the insulation of electrical cable conductors will find industrial use primarily in the production of electrical cables, construction industry, quality control, power engineering and accredited testing laboratories.

Claims (2)

PATENT CLAIMS 1. Equipment for checking electrical cable parameters, consisting of an electrical conductor manufacturing equipment or electrical conductor storage device from which electrical conductors are routed to a set of equipment for further processing and conditioning of electrical conductors, from which electrical conductors in a form suitable for manufacturing electrical conductors an electric cable manufacturing device, the output of which is an electric cable, characterized in that an ultrasonic probe (12) for measuring the thickness of the sheath (10) of the electric cable (8) and / or in front of the device is arranged downstream of the electric cable manufacturing device (8). (5) for further processing and treatment of electric conductors (2) are included ultrasonic probes (11) of insulation thickness measurement (4) of electric conductors (2), the outputs of ultrasonic probe (12) of thickness measurement of sheath (10) of electric cable (8) and / or the ultrasonic probe outputs (11) for measuring the thickness of the insulation (4) ele The electrical conductors (2) are connected to an ultrasonic meter (13) of the thickness of the sheath (10) of the electric cable (8) or the insulation thickness (4) of the electric conductors (2). Method for determining the speed of ultrasound propagation in a sheath and / or in the insulation of conductors of an electric cable, characterized in that the speed (v) of the propagation of ultrasound in the sheath (10) of an electric cable (8) or in insulations (4) of electric conductors (2) The electrical cables (8) are determined from: - the known thickness (Z) of the sheath (10) of the electric cable (8) or the insulation (4) of the electric conductors (2); - ultrasonic propagation speed (ν ') set on the ultrasonic thickness gauge (13); - the thickness (1 ') of the sheath (10) of the electric cable (8) or the insulation (4) of the electrical conductors (2) measured by the ultrasonic thickness meter (13) at a set speed (in ultrasound propagation; by relationship: v = y - v '(rr.s (i. N E 44-2018 Α3