KR101928787B1 - Powerline state indicator - Google Patents

Abstract

The present invention relates to a power line state indicator capable of preventing a safety accident of a worker. According to an embodiment of the present invention, the power line state indicator comprises: a bracket having one side fixed to a power transmission tower for supporting a power line; a magnetic needle shaft fixed to the other side of the bracket; and a rotatable magnetic needle mounted on the magnetic needle shaft and rotatable to point a direction of a magnetic field, wherein a direction of the magnetic needle due to geomagnetism and a direction of the magnetic needle by the magnetic field of the power line have a constant angle.

Description

Powerline status indicator {POWERLINE STATE INDICATOR}

The present invention relates to a power line status indicator.

Power is supplied from a power station via a power line fixed to a transmission tower or a pole to be supplied to a user's load from a substation or substation.

Such a power line can be referred to as a processing transmission line, and when a fault occurs in the transmission line, it can cause enormous damage to industry and daily life. In order to prevent the above damage, a worker often climbs up a transmission tower or a telephone pole to perform maintenance and repair work on the transmission line.

In order to prevent safety accidents such as electric shock accidents, the operator should be able to intuitively confirm the state of the power line in which current does not flow or does not flow, that is, the state of the power line. However, the electronic sensing equipment for sensing the power line condition is relatively complicated and expensive. Also, in the electronic sensing apparatus, the ultra-high voltage power line can malfunction due to a high induction current and has a problem to be provided directly by an operator.

Korean Registered Patent No. 10-1780712

According to an embodiment of the present invention, it is possible to provide a power line status indicator that can visually discriminate a sleep state of a power line and prevent a safety accident of an operator.

A power line status indicator according to an embodiment of the present invention includes a bracket having one side fixed to a transmission tower for supporting a power line; A magnetic pin shaft fixed to the other side of the bracket; And a magnetic needle mounted on the magnetic pin shaft and rotating in the direction of the magnetic field, wherein the direction of the magnetic pinion according to the geomagnetism and the direction of the magnetic pinion by the magnetic field of the power line are at a constant angle.

The power line status indicator according to an embodiment of the present invention is easy to manufacture and install, and is economical because it is inexpensive.

In addition, since no external power source is required, semi-permanent use is possible.

In addition, since the power line status indicator can easily identify the division of the power line, the operator safety accident can be prevented.

The various and advantageous advantages and effects of the present invention are not limited to the above description, and can be more easily understood in the course of describing a specific embodiment of the present invention.

1 is a view showing an example in which a power line status indicator according to an embodiment of the present invention is installed.
FIG. 2 is a schematic diagram of a power line status indicator according to an embodiment of the present invention. FIG.
3 is a view illustrating a bracket of a power line status indicator according to an embodiment of the present invention.
4 is a view for explaining a direction in which a power line status indicator according to an embodiment of the present invention is directed.
FIG. 5 is a view for explaining a direction in which a power-line status indicator according to an embodiment of the present invention is directed when the magnetic-field indicator includes an inclined magnetic-pole axis.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive.

Also, to "include" an element means that it may include other elements, rather than excluding other elements, unless specifically stated otherwise.

1 is a view showing an example in which a power line status indicator according to an embodiment of the present invention is installed.

Referring to FIG. 1, a power line status indicator 100 according to an embodiment of the present invention includes a bracket 110, a magnetic contact shaft 120, and a magnetic contact 130.

One side of the bracket 110 may be fixed to the transmission tower. For example, the bracket 110 may be fixed to the arm plate 13 of the transmission tower. The arm plate 13 is disposed at one end of the iron tower arm 12 of the transmission tower and the insulator 14 is disposed at the lower end of the arm plate 13. A support base 15 is disposed at the lower end of the insulator 14 and the support base 15 can receive and support the power line 11 as a penetration portion.

The needle shaft 120 is fixed to the other side of the bracket 110 and is configured to penetrate the magnetic sensor 130. Since one side of the magnetic contact 130 has a magnetic pole of the S pole and the other side has a magnetic pole of the N pole, it can be mounted on the magnetic pin shaft 120 and rotated along the direction of the magnetic field to indicate the direction of the magnetic field .

Since the power line status indicator 100 is installed adjacent to the power line 11, the magnetic stripe 130 is predominantly influenced by the magnetic field generated as current flows through the power line rather than the geomagnetism. Thus, the magnetic contact 130 indicates the direction of the magnetic field when no current flows through the power line 11, and may indicate the direction of the magnetic field generated by the current flowing through the power line 11 when current flows through the power line 11. [

In addition, the direction indicated by the magnetic contact 130 by the geomagnetism and the direction indicated by the magnetic contact 130 by the magnetic field of the power line 11 may be a constant angle. As a result, the sleep state in which current flows or does not flow in the power line 11 in the direction of the magnetic contact 130 can be visually recognized.

In addition, one side of the magnetic contact 130 may have a larger weight than the other side of the magnetic contact 130 on the basis of the magnetic contact shaft 120. Alternatively, the hand-held shaft 120 may be inclined at a predetermined angle and fixed to the bracket. The heavier needle 130 on one side or the tilted needle shaft 120 makes it possible to more clearly identify the sleep state of the power line 11. This will be described in more detail with reference to FIG.

FIG. 2 is a schematic diagram of a power line status indicator according to an embodiment of the present invention. FIG.

1, the power line status indicator 100 according to an embodiment of the present invention includes a bracket 110, a magnetic contact shaft 120, and a magnetic contact 130. As shown in FIG.

In addition, the power line status indicator 100 may further include a fixing pin 125 for fixing the magnetic-reading shaft 120 to the bracket 110. The pin pin 125 can prevent the magnetic pin shaft 120 from falling off the bracket 110 by a simple method of being coupled to the magnetic pin shaft 120 from the outside of the bracket.

In addition, the power line status indicator 100 may further include a nonconductor 135 attached so as to point in a direction perpendicular to the direction of the magnetic sensor 130. The non-conductor 135 may indicate the direction of the current flowing in the power line when the magnetic sensor 130 indicates the direction of the magnetic field of the power line. Therefore, the nonconductor 135 can be more clearly identified as a current flowing in the power line.

In addition, the power line status indicator 100 may further include a case 140 for receiving the magnetic sensor 130 therein. The case 140 is penetrated by the magnetic pin shaft 120 and surrounds the outside of the magnetic contact 130. In addition, the case 140 may have a material at least partially transparent so that the direction of the magnetic contact 130 can be seen from the outside. The case 140 may be filled with oil, which causes the magnetic contact 130 to stably point in a fixed direction corresponding to the variation of the magnetic field, and the movement of the magnetic contact 130 due to the magnetic field, Thereby protecting the magnetic contact 130 from being susceptible to external influences.

3 is a view illustrating a bracket of a power line status indicator according to an embodiment of the present invention.

Referring to FIG. 3, the bracket 110 of the power line status indicator according to an embodiment of the present invention may include a first bracket 110a and a second bracket 110b. The first bracket 110a may be coupled to the arm plate using bolts 113 or the like. The second bracket 110b may include a through hole 112 for fixing the magnetic pin shaft.

Meanwhile, the first bracket 110a and the second bracket 110b may be coupled with each other at a certain angle?. For example, the first bracket 110a and the second bracket 110b may be welded after being manufactured or may be integrally manufactured using a mold. In general, the arm plate has a horizontal surface and a horizontal plane, and the first bracket 110a is fixedly attached to the surface of the arm plate, so that the magnetic pin shaft fixed to the second bracket 110b has a constant angle Lt; / RTI >

4 is a view for explaining a direction in which a power line status indicator according to an embodiment of the present invention is directed. 4 is a top view of the power line 11 and the magnetic contact 130 of the power line status indicator.

The magnetic contact 130 may rotate in the direction of the magnetic field to indicate the direction of the magnetic field. Referring to FIG. 4A, when the current does not flow through the power line 11, the magnetic sensor 130 may indicate the direction of the geomagnetism (GM). At this time, since the magnetic contact 130 and the nonconductor 135 pointing in a wrong direction indicate different directions from the power line 11, the operator can clearly identify that the current does not flow through the power line 11. [

Referring to FIG. 4B, when a current flows through the power line 11, the magnetic contact 130 is predominantly influenced by the magnetic field MF by the power line 11. Thus, the magnetic contact 130 may indicate the direction of the magnetic field MF by the power line 11. [ At this time, since the non-conductor 135 indicating the direction perpendicular to the magnetic contact 130 indicates the direction I of the current flowing in the power line 11, the operator can clearly identify that the current flows through the power line 11 have.

FIG. 5 is a view for explaining a direction in which a power-line status indicator according to an embodiment of the present invention is directed when the magnetic-field indicator includes an inclined magnetic-pole axis. 5 is a view showing a state in which the power line 11 and the magnetic sensor 130 of the power line status indicator are viewed in the direction of the cross section of the power line 11. As shown in FIG.

As described with reference to Figs. 1 and 3, the magnetic pin shaft can be fixed at a constant angle with the direction perpendicular to the horizontal plane. To this end, one side of the magnetic contact 130 may be heavier than the other side of the magnetic contact 130 relative to the magnetic contact shaft 120. Alternatively, the hand-held shaft 120 may be inclined at a predetermined angle and fixed to the bracket.

5A, when a current does not flow through the power line 11, the magnetic sensor 130 detects a direction md that makes a certain angle? With the direction pd perpendicular to the direction hd of the horizontal plane. Lt; / RTI > Even when the geomagnetism (GM) is formed in the direction hd parallel to the horizontal plane, the magnetic contact 130 does not point in the direction hd parallel to the horizontal plane due to its own weight or tilting of the magnetic contact shaft 120. [

Referring to FIG. 5B, when a current flows through the power line 11, the magnetic sensor 130 may indicate the direction of the magnetic field MF by the influence of the magnetic field MF by the power line 11. The magnetic field MF of the power line 11 has a strength much greater than that of the geomagnetism so that the magnetic contact 130 can overcome the self weight or tilt of the magnetic pin shaft 120 and indicate the direction of the magnetic field MF of the power line 11 . For example, when the magnetic sensor 130 is disposed above the power line 11, it may indicate a direction hd parallel to the ground plane of the magnetic sensor 130.

Accordingly, the operator can clearly identify that the electric current is flowing through the power line 11 due to the tilted angle of the magnetic contact 130.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the particular forms disclosed. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: Power line status indicator
110: Bracket
120: Ball shaft
125: Fixing pin
130: Sewing
135: Non-conductor
140: Case

Claims (6)

A bracket having one side fixed to a power transmission tower for supporting a power line;
A magnetic pin shaft fixed to the other side of the bracket;
And a magnet that is mounted on the magnetic pin shaft and is rotatable so as to point in the direction of the magnetic field,
The direction of the magnetic contact according to the geomagnetism and the direction of the magnetic contact by the magnetic field of the power line form a constant angle,
And a power line status indicator to which an insulator attached so as to point in a direction perpendicular to the direction of the magnetic contact is attached to the magnetic contact.
delete The method of claim 1, wherein
Further comprising a case which is penetrated by the hand shaft and surrounds the outside of the hand, and at least partially transparent so that the direction of the hand is visible from the outside,
A bracket having one side fixed to a power transmission tower for supporting a power line;
A magnetic pin shaft fixed to the other side of the bracket;
And a magnet that is mounted on the magnetic pin shaft and is rotatable so as to point in the direction of the magnetic field,
The direction of the magnetic contact according to the geomagnetism and the direction of the magnetic contact by the magnetic field of the power line form a constant angle,
And the first bracket and the second bracket are inclined at a predetermined angle so as not to be perpendicular to the horizontal plane, and the first and second brackets are coupled to each other.
A bracket having one side fixed to a power transmission tower for supporting a power line;
A magnetic pin shaft fixed to the other side of the bracket;
And a magnet that is mounted on the magnetic pin shaft and is rotatable so as to point in the direction of the magnetic field,
The direction of the magnetic contact according to the geomagnetism and the direction of the magnetic contact by the magnetic field of the power line form a constant angle,
The power line status indicator is one in which one side is heavier than the other side with respect to the magnetic pinion shaft so that the direction of the magnetic pinion by the geomagnetism has a certain angle with the direction parallel to the horizontal plane.
The method of claim 5, wherein
Wherein the magnetic pin shaft is tilted at a predetermined angle with respect to a direction perpendicular to the horizontal plane and fixed to the bracket.

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