KR101183625B1 - Clamp-on flexible rogowski coil current transformer - Google Patents

Abstract

PURPOSE: A divided type Rogoski coil current transformer is provided to accurately measure currents by preventing the measurement limit of the currents flowing in a railroad due to magnetic saturation of an iron core or a direct-current component included in the currents. CONSTITUTION: A Y-shaped coupling part(11) couples a signal wire(24) and a Rogoski coil(23) for transmitting signals. The signal wire is coupled with one side of the Y-shaped coupling part. The Rogoski coil is connected to the signal wire on one side of the Y-shaped coupling part. A coupling groove(17) is fixed to the Y-shaped coupling part. A protrusion portion(22) is formed on the edge of the Rogoski coil.

Description

Split Rogowski Coil Current Transformer

The present invention is a Rogowski coil current transformer for measuring the current flowing through the line simply by being fastened to the high-voltage distribution line, uniformly winding the coil coated with an insulator on the outside of the coaxial cable to form a triple winding coil, It is configured to measure the induced current, it is configured to open and fasten one side of the Rogowski coil, insert a shielding member to the Y-shaped fastening portion to minimize the error when measuring, and damage the winding coil on the outside The split Rogowski coil current transformer is coated with a coating material to prevent the damage.

Generally, it is a device to measure load current and fault current of various power equipment such as switchboard and high voltage switch. Current transformer, shunt, hall sensor, Rogowski coil using magnetic coil And the like have been used.

Although it is relatively easy to secure the current of the current transformer, when a large current or a direct current component is included in the current due to the magnetic saturation of the iron core, there are many problems in application such as limitation in current measurement and difficulty in miniaturization.

Rogowski coils, which are used as current transformers to measure currents in high-voltage lines, are limited in measurement when DC currents are included in large currents or currents due to magnetic saturation of the iron cores. Therefore, they do not use magnetic cores. As it uses plastic bobbin made of special material to form air core, it can be applied to current measurement of high voltage line as it does not have overcurrent damage due to iron core saturation, but it shows different measurement values according to the position of the target line. The error is severe, and the amount of induced current is small, so there is a problem that the accuracy is greatly reduced in the low-voltage line.

In the fastening portion of the conventional Rogowski coil, there is a problem that a relatively large measurement error of ± 2% or more occurs.

The problem to be solved by the present invention is to provide a Rogowski coil current transformer that can overcome the limitation of measuring the current flowing in the line due to the magnetic saturation of the iron core or the DC component included in the current.

Another object of the present invention is to provide a Rogowski coil current transformer manufactured by forming a triple winding coil by reciprocating a coil on a coaxial cable in order to solve a problem of small induced voltage and large measurement error.

Another problem to be solved by the present invention is to provide a Rogowski coil current transformer with a significantly increased durability by making a Y-shaped fastening portion and winding coil coating material such as a flame-retardant material so as not to be deformed or damaged by overheating of the measurement target wire. have.

Another problem to be solved by the present invention is to uniformly form the winding coil in three times as a coil on the coaxial cable in the Rogowski coil current transformer, assembling the winding coil in the Y-shaped case, the inside of the Rogowski coil coil is omnidirectionally It is to provide a Rogowski coil current transformer that can reduce the error by configuring the enclosed by the shielding member to block the electromagnetic wave radiated by installing a shielding member inside the Y-shaped fastening portion without the winding coil.

The problem solving means of the present invention is configured to uniformly form a coil coil coated with an insulator outside the coaxial cable and measure the current induced in the winding coil, so that one side of the Rogowski coil can be opened and fastened. After forming uniformly the winding coil in triple on the coaxial cable, the shielding member to shield the electromagnetic wave inside the Y-shaped fastening part to minimize the error when measuring with the Y-shaped fastening part The split Rogowski coil current transformer is inserted and externally coated with a coating material to prevent damage to the coil.

Another problem solving means of the present invention is to improve the accuracy of the current transformer by forming a triple winding coil by reciprocating the coil on the coaxial cable in order to solve the problem that the induced voltage is small and the measurement error is large due to the characteristics of the Rogowski coil current transformer. To implement a current transformer.

Another problem to be solved by the present invention is a triple winding coil connected to the signal line for transmitting the induced voltage induced in the winding coil to one side of the Y-shaped fastening portion, the transmission signal line is connected, and the signal line on the other side The formed coaxial cable is connected, and the other side is designed and manufactured so that the Y-shaped fastening portion formed at the edge of the coaxial cable formed with the triple winding coil can be inserted and fastened to implement a Rogowski coil current transformer configured to be easily fastened and manufactured. have.

Another problem solving means of the present invention is that the shielding to cut off the electromagnetic wave in order to reduce the current measurement error caused by the electromagnetic wave emitted from the electric wire for current measurement because the triple winding coil is not formed inside the Y-shaped fastening portion Rogowski coil current transformer is installed in the member.

The present invention has an advantageous effect of measuring the accurate current by overcoming the limitation of measuring the current flowing in the line due to the magnetic saturation of the iron core or the direct current component included in the current using Rogowski coil current transformer.

Another effect of the present invention is to reduce the measurement error caused by the small induced voltage by forming a triple winding coil by reciprocating the coil on the coaxial cable.

Another effect of the present invention is to make the Y-shaped fastening portion and the coil coating material, etc. in flame retardant material so as not to be deformed or damaged by overheating of the measurement target wire, etc., greatly improving the durability.

Another effect of the present invention is to uniformly form the winding coil in three times as a coil on the coaxial cable in the Rogowski coil current transformer, and assembling the winding coil in the Y-shaped case, the Rogowski coil coil is surrounded by the coils in all directions. It is configured to reduce the error and install a shielding member inside the Y-shaped fastening part without the winding coil to cut off the radiated electromagnetic waves so as to reduce the measurement error to less than ± 1%.

Figure 1 shows a perspective view of the Y-shaped fastening portion according to the present invention.
2 is a perspective view of a shape in which the upper and lower portions of the Y-shaped fastening portion according to the present invention are fastened to each other.
Figure 3 shows the shape (open type) of Rogowski coil current transformer according to the present invention.
Figure 4 illustrates the shape of the triple winding coil formed on the coaxial cable according to the present invention.
Figure 5 shows the shape at the fastening of Rogowski coil current transformer according to the present invention.
<Brief Description of Drawings>
11; Y-shaped fastening part 12; Y-shaped fastening bottom
13; Y-shaped fastener top
14, 15, 16; Hanging jaw of Y-shaped fastening part
17: fastening groove (logoski coil)
18, 19, 20; Fastening groove 21; Shield member
22; Fastening stopper (logoski coil) 23; Rogowski coil
24; Signal line 25; Winding coil
26; Coating

Hereinafter, the present invention will be described in detail.

The present invention is provided with a Y-shaped fastening portion, the coil is coated with an insulator outside the flexible coaxial cable having a predetermined diameter to form a winding coil in triple, and configured to measure the voltage induced in the winding coil Rogowski coil current transformer.

Rogowski coil current transformer according to the present invention is one side of the flexible coil winding coil winding is fixed with a signal line for transmitting the current signal measured in Rogowski coil, the other side is designed to be open and fastened It is.

In addition, as a technical configuration for minimizing the measurement error occurring during the measurement, by winding a coil coiled with an insulator outside the flexible coaxial cable having a predetermined diameter to form a winding coil in triple, shielding electromagnetic waves A shielding member that can be inserted is inserted inside the Y-shaped fastening portion. The outside is covered with a coating to prevent damage to the winding coil. A specific embodiment of the present invention will be described.

<Examples>

A specific embodiment of the present invention will be described with reference to the drawings. Figure 1 shows a perspective view of one side of the Y-shaped fastening portion according to the present invention. Figure 2 shows a perspective view of fastening the upper and lower portions of the Y-shaped fastening portion according to the present invention.

In Figure 1, the Y-shaped fastening portion (11 in Figure 1) is formed with three grooves for inserting three circular cables, one of the grooves for transmitting the current signal detected by the Rogowski coil A cable consisting of a signal line (24 of FIG. 3) is fixedly installed, and one side of the Rogowski coil (23 of FIG. 3) connected to the signal line (24 of FIG. 3) is fixedly installed, and the other is a current measurement. A fastening groove (17 in FIG. 2, a rectangular hole) is formed to be fastened or opened to be easily inserted into the target electric wire, and a forced fit using a locking jaw (22 in FIG. 3) formed on the edge of the Rogowski coil and elasticity. It is configured not to be fastened and separated from each other.

The present invention uses the law of the direction of electromagnetic induction invented by the German physicist Lenz as a current measurement method using Faraday's law.

More specifically, the induction current by the induced electromotive force uses the law that flows in the direction to suppress the temporal change of the magnetic flux flux. More specifically, the integral form of Faraday's law expressed in the Maxwell's equation is given by equation (1).

(1)

(One)

In Eq. (1), the right side represents the time change rate of the magnetic flux with respect to the area S or the area fraction according to the time variation of the magnetic field, and the left side represents the distribution of the electric field with respect to the closed closed curve C covering the area S with the magnetic flux changing.

The present invention measures current with a winding coil using this principle.

In Fig. 2, the Y-shaped fastening portion is designed and manufactured by dividing the upper and lower parts, and is composed of upper and lower frames constituting the upper and lower parts.

The upper and lower frames are provided with a plurality of fastening means so as to be firmly fastened to each other, the fastening means forms a fastening groove (18, 19, 20, rectangular in Fig. 1) on one side of the upper or lower, and corresponding The other side is to be formed in the locking groove (14, 15, 16 of Figure 1) to be inserted into the fastening groove (18, 19, 20 of Figure 1) is formed is configured to be forced fit. 5 and 5 fastening means are formed.

In the upper and lower frames constituting the Y-shaped fastening portion (11 in Fig. 1), the locking groove (22 in Fig. 3) and the fastening grooves to be fastened to each other and fixed to one side edge so that Rogowski coil can be separated or fastened ( 17) is formed.

In general, it is relatively easy to secure the current of the current transformer, but the measurement is limited when the direct current component is included in the high current or current due to the magnetic saturation of the iron core. Design and manufacture, but designed and manufactured with a simple structure that is easy to assemble and squeeze it is configured to minimize the measurement error by increasing the accuracy.

Looking at Rogowski coil (23 of Figure 3) according to the present invention.

Figure 3 illustrates the shape of the triple winding coil formed on the coaxial cable according to the present invention. In FIG. 3, the coaxial cable is configured to prevent the flexible Rogowski coil from being easily stretched or damaged due to an iron core or a concentric core. It may be designed and manufactured using a flexible line having a certain diameter (3 mm or more) in which iron cores or concentrics are not inserted.

For the material of the coaxial cable, a wire having a predetermined diameter manufactured by using a material that does not shield electromagnetic waves may be selected from silicon, rubber, and synthetic resin.

By winding a coil having a predetermined diameter and length on the coaxial cable uniformly, winding coil is wound to produce Rogowski coil.

More specifically, one winding coil (25 of FIG. 4) is formed by uniformly winding one long line made of a conductor material capable of measuring current by inducing current by copper or induced voltage, and forming one. By winding the coil again on the winding coil (25 in FIG. 4), the winding coil may be formed as a triple winding coil to detect more current, thereby reducing the error of the measured value, thereby increasing accuracy.

The number of layers of the winding coil is preferably formed by winding one winding coil layer, and then continuously winding the winding coil to form a single winding coil to form a triple winding coil (25 in FIG. 4). In consideration of the size and the like, the number of layers of the winding may be formed in one or two or more layers.

The current measured at the start line and the end line of the winding coil formed by winding the winding coil in triplicate is configured to be transmitted through the signal line.

In order to protect the winding coil from being damaged by collision with an electric wire or an object during transportation or fastening, the winding coil is covered with a coating material (26 in FIG. 4) made of a synthetic resin material that does not block electromagnetic waves.

The winding coil is not wound on the part inserted into the Y-shaped fastening part of the Rogowski coil, and the shielding member for shielding the electromagnetic wave to reduce the deviation of the current measured at the Rogowski coil current transformer according to the position of the high voltage wire. 2 (22) is inserted inside the Y-shaped fastening portion so that the upper and lower portions of the Y-shaped fastening portion are fastened and coupled by the fastening means.

Fastening means at the top and bottom of the Y-shaped fastening portion (11 in Fig. 1) is a plurality of fastening grooves (18, 19, 20 of Fig. 2) of the rectangular shape on the top or bottom, as shown in Figs. By forming a plurality of locking jaws (14, 15, 16 of Figure 1) that can be inserted and fastened in accordance with the shape and size of the plurality of fastening grooves (18, 19, 20 of Figure 2) by force fitting It is configured to be firmly fastened.

The material of the coaxial cable or the flexible wire wound by the winding coil is made of flexible silicone, rubber or synthetic fiber material that does not block electromagnetic waves, and the material of the upper and lower frames constituting the Y-shaped fastening part is firmly fastened. It is made of synthetic fiber material.

All materials, including coaxial cables, sheaths, signal wires and Y-shaped fasteners used in the present invention, are constructed of flame retardant materials that can withstand fire or high temperatures.

4 is a view illustrating a shape in which a Rogowski coil is opened in a Rogowski coil current transformer according to the present invention, and FIG. 5 is a view in which Rogowski coil is fastened in a Rogowski coil current transformer according to the present invention.

The present invention is a Rogowski coil current transformer for measuring the current flowing in the line simply by being fastened to the high-voltage distribution line, uniformly wound coil coated with an insulator on the outside on the coaxial cable to form a triple winding coil, the organic in the coil It is configured to measure the current using the voltage, which is configured to open and fasten one side of the Rogowski coil, insert the shielding member to the fastening part to minimize the error during the measurement, the outside of the winding coil Split Rogowski coil current transformers are coated with a coating to prevent damage, reducing measurement errors when measuring current.

Claims (5)

In Rogowski coil current transformers,
A Y-shaped fastening part for fastening and fastening a signal line for transmitting a signal and a Rogowski coil;
A signal line which is fastened to one side of the Y-shaped fastening part and transmits a measured current signal;
Rogowski coil is connected to the signal line on one side of the Y-shaped fastening portion;
A fastening groove fixed to the Y-shaped fastening portion; And
It includes a locking step formed on the edge of the Rogowski coil to be coupled to the fastening groove,
The Rogowski coil current transformer is formed in one winding coil uniformly, and wound winding again uniformly with one coil connected to form a winding coil in three times. delete The method according to claim 1,
Rogsky coil current transformer, characterized in that the shielding member is inserted into the Y-shaped fastening portion to prevent the radiation of electromagnetic waves generated from the wire to minimize the error during measurement. The method according to claim 1,
The Y-shaped fastening portion is formed by separating the upper and lower,
A plurality of fastening grooves of a rectangular shape is formed at the top or bottom,
Rogowski coil current transformer, characterized in that to form a plurality of locking jaws that can be inserted and fastened in accordance with the shape and size of the plurality of fastening grooves configured to be fastened by forced fitting. The method according to claim 1,
In order to increase the durability and reliability of the Rogowski coil current transformer, a logo comprising a flame retardant material that can endure all materials including a coaxial cable, a coating material, and a Y-shaped fastening part employed in the Rogowski coil current transformer. Ski coil current transformer.

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