KR102364759B1 - Electric cable fixing device of line post insulator - Google Patents

Abstract

The present invention relates to a power line fixing mechanism for a line post insulator,
A space portion into which the head portion of the line post insulator is inserted is formed below the upper plate 11, a vertical ring portion 12 is formed at the edge of the upper plate 11, and a hole through the center of the upper plate 11 for a power line fixing bolt ( 13) is formed with a circular reinforcing cover 10 and;
A reinforcing end 17 is formed between the hexagonal head 15 and the screw rod 16, and the screw rod 16 is assembled to the left and right threads of the power line seating groove of the line post insulator, and the power line is hung in the power line seating groove. a power line fixing bolt 14 for fixing it so that it does not move;
The power line fixing bolt 14 is inserted into the screw rod 16 of the power line fixing bolt 14 and positioned between the upper plate 11 of the reinforcing cover 10 and the reinforcing end 17 of the power line fixing bolt 14. By assembling the screw rod part 16 of the line post insulator to the left and right screw parts of the power line seating groove to fix the power line, while the height is reduced, elasticity is applied to the upper plate 11 of the reinforcing cover 10 to reinforce the cover (10) It is characterized in that it comprises a resilient means to prevent the separation or movement from the head portion of the line post insulator.
As described above, the present invention prevents the head portion from spreading left and right based on the power line seating groove formed in the head portion of the line post insulator, thereby fixing the power line as the power line fixing bolt loosens from the screw portion of the head portion or leaves the screw portion of the head portion. It is possible to prevent the negative effects of loss of the function to make the system, and thereby has a very useful effect to prevent electrical safety accidents in advance.
In addition, in the present invention, the difference between the large diameter and the small diameter in the diameters of large, medium, and small power lines in Korea is about 8 mm. The new technology that can fix up to the diameter of the power line is applied, so even if the diameter of the power line changes frequently, there is an advantage that it does not cause confusion in the work, and this has a very economical effect.

Description

Electric cable fixing device of line post insulator

[Technical field to which the invention belongs and prior art in that field]

The present invention relates to a power line fixing mechanism for a line post insulator.

The line post insulator plays a role of supporting the power line while being fixed to the light pole of the telephone pole. In the past, a semicircle-shaped groove was formed on the top surface of the head of the line post insulator, the power line was seated on the groove, and then the head was connected with a bind wire. The method of tying and tying the power line was used, which, above all else, is not only impossible to work in a live state, but also requires a lot of work time. There was also a disadvantage that it was difficult to work without experience because it required skill.

Accordingly, the present inventor forms a deep power line seating groove in the head of the line post insulator as shown in FIGS. 20 and 19, and forms threaded parts on the left and right sides of the power line seating groove to seat the power line in the power line seating groove, and then applies a hairless bolt to the head. Invented a structure and technology that allows the power line to be easily fixed to the head by assembling it to the screw part of the lower part and has been registered as Patent Registration No. 10-1648311. It has the advantage that it is easy to replace the line post insulator even in a live state.

However, if the power line sways in all directions or an impact is applied to the head part due to weather changes, earthquakes, shocks, etc. It was confirmed that the phenomenon of loosening or separation from the screw part of the head occurs occasionally.

On the other hand, in the above patent, a cap made of a soft material (eg, silicone) is placed over the head of the line post to prevent bird droppings or dust from contaminating the tanning bolt, which is the purpose of the invention with the reinforcing cover of the present invention. It is revealed that the action and effect are all clearly different.

Accordingly, the present inventor invented another structure and technology to solve the problem of the above patent and was registered as Patent No. 10-1693399, which consists of a T-shaped power line pressing means and a fixing pin, the bottom of the power line pressing means A screw rod is formed in the center, and a protrusion extending from the upper side of the power line pressing means to the left and right and a pin hole are respectively formed on the upper surface of the head of the line post insulator. This is to prevent the power line pressing means from being separated from the head by rotating the power line pressing means to fix the screw rod by pressing the power line, so that the pin hole of the head and the pin hole of the power line pressing means match, and then insert a separate pin. It was found that it was difficult to accurately match the centers of the above-mentioned pin holes after pressing the power line by rotating the power line pressing means, which exposed the limitations in reducing workability and obtaining accurate work effects.

And in Patent Application No. 10-2015-0142270 of the present inventor, the power line is fixed by assembling a hairless bolt to the screw part of the head part, and a key groove is formed in all directions on the upper surface of the hairless bolt, and a key groove is also formed directly above the screw part of the head part. After tightening the skinless bolt, one of the key grooves of the skinless bolt is matched with the key groove of the head, and then a key is inserted to prevent the skinless bolt from coming off. exposed, resulting in poor workability.

1. Patent No. 10-1648311 2. Patent No. 10-1693399 3. Patent Application No. 10-2015-0142270

[Technical task to be accomplished by the invention]

The present invention is a line post insulator power line having an advanced structure and technology that solves the problem that the hairless bolt fixing the power line is separated from the screw part of the head and lacks practicality, which was not achieved in the technology of the above-mentioned prior patent documents. It is a challenge to provide a fixture.

[Composition and action of the invention]

The present invention for solving the above problems is configured as follows.

[Example 1]

A space portion into which the head portion of the line post insulator is inserted is formed below the upper plate 11, a vertical ring portion 12 is formed at the edge of the upper plate 11, and a hole through the center of the upper plate 11 for a power line fixing bolt ( 13) and a circular reinforcing cover 10 formed thereon;

A reinforcing end 17 is formed between the hexagonal head 15 and the screw rod 16, and the screw rod 16 is assembled to the left and right threads of the power line seating groove of the line post insulator, and the power line is hung in the power line seating groove. a power line fixing bolt 14 for fixing it so that it does not move;

The power line fixing bolt 14 is inserted into the screw rod 16 of the power line fixing bolt 14 and positioned between the upper plate 11 of the reinforcing cover 10 and the reinforcing end 17 of the power line fixing bolt 14. The screw rod portion 16 of the line post insulator is assembled to the left and right screw portions of the power line seating groove to fix the power line and at the same time reduce the height and apply elasticity to the upper plate 11 of the reinforcing cover 10 to reinforce the cover (10) The line post insulator is characterized in that it comprises a resilient means for not moving away from the head portion of the insulator, the resilient means is selected from an insulating plate spring or an insulating bellows tube body or an insulating coil spring or a rubber ring.

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[Example 2]

A space portion into which the head portion of the line post insulator is inserted is formed below the upper plate 21, a vertical ring portion 22 is formed at the edge of the upper plate 21, and a hole through the center of the upper plate 21 for a power line fixing bolt ( 23) is formed and a circular reinforcing cover 20 in which a protruding ring portion 24 having a larger diameter than the diameter of the hole 23 is formed on the bottom surface of the upper plate 21;

A reinforcing end 17 is formed between the hexagonal head 15 and the screw rod 16, and the screw rod 16 is assembled to the left and right threads of the power line seating groove of the line post insulator, and the power line is hung in the power line seating groove. a power line fixing bolt 14 for fixing it so that it does not move;

The screw rod 16 of the power line fixing bolt 14 is assembled to the left and right threads of the power line seating groove of the line post insulator while being inserted into the protruding ring 24 of the reinforcing cover 20 to fix the power line and reduce the height at the same time. It is characterized in that it includes a resilient means for applying elasticity to the upper plate 21 of the reinforcing cover 20 while the reinforcing cover 20 is not separated from or moving from the head portion of the line post insulator.

In the above embodiment, the resilient means is characterized in that it is selected from a rubber ring or an insulating coil spring or an insulating bellows tube body.

In the above embodiment, it is characterized in that the hole 23 of the reinforcing cover 20 is replaced with a screw hole.

[Example 3]

A hexagonal head portion 32 is formed in the center of the upper surface of the upper plate 31, a space portion into which the head portion of the line post insulator is inserted is formed below the upper plate 31, and a vertical ring portion 33 is formed at the edge of the upper plate 31 A circular reinforcing cover with a protruding ring part 35 having a larger diameter than the diameter of the screw rod part 34 is formed on the bottom surface of the upper plate 31 and formed on the lower surface of the central part of the upper plate 31. (30) and;

While being inserted into the protruding ring part 35 of the reinforcing cover 30, the power line screw rod 34 is assembled to the left and right screws of the power line seating groove of the line post insulator to fix the power line and at the same time reduce the height of the reinforcing cover 30. By applying elasticity to the upper plate 31 of the reinforcing cover 30 is characterized in that it comprises a resilient means to prevent the separation or movement from the head portion of the line post insulator.

In the above embodiment, the resilient means is characterized in that it is selected from a rubber ring or an insulating coil spring or an insulating bellows tube body.

[Example 4]

The inside of the annular body 41 is formed with a space in which the head part of the line post insulator is inserted, and the inclined pipe part 42 extends above the annular body 41, and the upper surface 43 extending from the inclined pipe part 42 is formed. a reinforcing cover 40 having a hole 44 through which the screw rod part of the power line fixing bolt passes in the center;

A reinforcing end 17 is formed between the hexagonal head 15 and the screw rod 16, and the screw rod 16 is assembled to the left and right threads of the power line seating groove of the line post insulator, and the power line is hung in the power line seating groove. It is characterized in that it comprises a power line fixing bolt (14) for fixing so as not to move.

In the above embodiment, it is characterized in that the incision groove (42a) is further added in all directions from the inclined tube portion 42 to the upper surface 43 of the reinforcing cover 40.

In the above embodiment, it is characterized in that the hole 44 in the center of the upper surface 43 is replaced with a screw hole.

[Example 5]

A space portion into which the head portion of the line post insulator is inserted is formed below the upper plate 11, a vertical ring portion 12 is formed at the edge of the upper plate 11, and a hole through the center of the upper plate 11 for a power line fixing bolt ( 13) and a circular reinforcing cover 10 formed thereon;

A funnel-shaped inclined tube body 63 is formed between the hexagonal head part 61 and the screw rod part 62, and there is a space between the inclined tube body 63 and the screw rod part 62, and the screw rod part 62 is formed. It is characterized in that it consists of a power line fixing bolt (60) assembled on the left and right sides of the power line seating groove of the line post insulator to fix the power line hanging in the power line seating groove so that it does not move.

In the above embodiment, the inclined tube body 63 is characterized in that the incision gaps 63a are formed in all directions as shown in FIGS. 23 and 24 .

[Example 6]

A space portion into which the head portion of the line post insulator is inserted is formed below the upper plate 71 , a vertical ring portion 72 is formed at the edge of the upper plate 71 , and the screw rod of the power line fixing bolt passes through the center of the upper plate 71 . a circular reinforcing cover 70 in which a hole 73 is formed and a circular protruding tube body 74 having a larger diameter than the diameter of the hole 73 is formed on the bottom surface of the upper plate 71;

A reinforcing end 17 is formed between the hexagonal head 15 and the screw rod 16, and the screw rod 16 is assembled to the left and right threads of the power line seating groove of the line post insulator, and the power line is hung in the power line seating groove. It is characterized in that it consists of a power line fixing bolt (14) that is fixed so as not to move.

[Example 7]

A hexagonal head portion 82 is formed in the center of the upper surface of the upper plate 81, a space portion into which the head portion of the line post insulator is inserted is formed below the upper plate 81, and a vertical ring portion 83 is formed at the edge of the upper plate 81. It is formed and a screw rod part 84 is formed on the lower surface of the central part of the upper plate 81, and a circular protruding tube body 85 having a larger diameter than the diameter of the screw rod part 84 is formed on the lower surface of the upper plate 81. do it with

In the above embodiment, it is characterized in that a circular hole is further formed in the center of the bottom surface of the screw rod portion (84).

In the present invention as described above, each example and operation will be examined as follows. First, an example of Example 1 of the present invention will be looked at.

As shown in FIG. 2, the circular reinforcing cover 10 has a space in which the head part of the line post insulator is inserted as shown in FIG. 6 below the upper plate 11, and the vertical ring part 12 is formed at the edge of the upper plate 11. A hole 13 through which the power line fixing bolt is formed is formed in the center of the upper plate 11 . Here, the inner diameter of the vertical ring portion 12 is preferably determined to have an intermediate fitting tolerance when the circular reinforcing cover 10 is fitted on the upper side of the head of the line post insulator as shown in FIG. indicates that the same applies.

It is revealed that the material of the circular reinforcing cover 10 described above is most preferably selected from plastics that are tough and strong in physical properties, and this also applies to other embodiments to be described later.

Subsequently, the power line fixing bolt 14 has a reinforcing end 17 formed between the hexagonal head 15 and the screw rod 16 as shown in FIG. 1, and the screw rod 16 is a line post as shown in FIG. Assembled in the screw on the left and right of the power line seating groove of the insulator, it plays a role in fixing the power line hanging in the power line seating groove so that it does not move. Here, the hexagonal head 15 can be deformed into a square or octagonal shape, and instead of the hexagonal head 15, a hexagonal or square hole that can be turned by inserting a wrench like a hairless bolt in the center of the circular head can be formed of course. Do. And it is revealed that the power line fixing bolt 14 as in the example of Embodiment 1 of the present invention is used the same in some embodiments to be described later.

On the other hand, it is natural that the reinforcing end 17 of the power line fixing bolt 14 may be replaced with an insulating washer in some cases. It goes without saying that the same applies to the case of other embodiments to be described later as well.

It is revealed that the material of the above-described power line fixing bolt 14 is most preferably selected from plastics that are tough and strong in physical properties, and this also applies to other embodiments to be described later.

Then, as shown in FIG. 7, it is inserted into the screw rod part 16 of the power line fixing bolt 14 and positioned between the upper plate 11 of the circular reinforcing cover 10 and the reinforcement end 17 of the power line fixing bolt 14. , By assembling the screw rod 16 of the power line fixing bolt 14 to the left and right screws of the power line seating groove of the line post insulator, the power line is fixed and the height is reduced at the same time as the top plate 11 of the circular reinforcing cover 10 Resilient means to prevent the circular reinforcing cover 10 from deviated or moved from the head part of the line post insulator - hereinafter referred to as the head part - by applying elasticity is shown in Figs. 10, it is preferable to select from an insulated disc spring or an insulated bellows tube or an insulated coil spring or a rubber ring.

Looking back, the example of Embodiment 1 inserts the circular reinforcing cover 10 in the head part as shown in FIG. 6 and at the same time allows the screw rod part 16 of the power line fixing bolt 14 to be assembled to the screw part of the head part, the power line Between the reinforcing end 17 of the fixing bolt 14 and the upper surface of the circular reinforcing cover 10, for example, at least one disc spring is positioned so that the screw part of the head is only maintained until the free height before the disc spring is compressed. The screw rod 16 is assembled to the .

That is, as shown in FIG. 6 , the bottom surface of the screw rod part 16 of the power line fixing bolt 14 maintains a gap G of about 2 to 3 mm from the upper end of the power line, and until the point before the disk spring is compressed, the screw part of the head It is preferable to assemble the screw rod part 16, and as another embodiment, an insulating bellows tube body or an insulating coil spring or rubber ring is used according to the same method.

On the other hand, in the case of using a disc spring in the example and application example of Embodiment 1 of the present invention, two disc springs are used. .

And in the case of other embodiments to be described later, including the example of Embodiment 1 of the present invention, it is revealed that the diameter of the power line seated in the power line seating groove is shown as an example of the largest diameter. The difference between the diameter of the large and the small is only about 8 mm.

Subsequently, as described above, when the power line fixing bolt 14 is further tightened in the state in which the screw rod 16 of the power line fixing bolt 14 is assembled to the screw portion of the head as in the state of FIG. 6, the free height of the plate spring As shown in FIG. 7, the bottom surface of the screw rod part 16 is in contact with the upper end of the power line and is fixed by pressing the power line.

At this time, since the resilient force acts on the plate spring as the free height is reduced, the circular reinforcing cover 10 is pushed toward the head to be in close contact. Since (10) is fitted on the upper side of the head and is in close contact with the head by the elastic force of the plate spring, the fixed cover 10 does not separate from the head even when shock and vibration are applied. As a result, the action of the head portion is suppressed and thus the screw rod portion 16 of the power line fixing bolt 14 does not deviate from the screw portion of the head portion, thereby achieving the greatest object of the present invention.

On the other hand, when the diameter of the power line is medium in the state of FIG. 7, if the power line fixing bolt 14 is further tightened, the disk spring is further compressed and the screw rod part 16 also descends further, so that even a medium-sized power line can be fixed, Even in the case of a small power line, if the power line fixing bolt 14 is further tightened, the plate spring becomes flatter and the screw rod 16 descends further, so that the small power line can be fixed without any problem. Since the difference between the large diameter and the small diameter of the existing power line is only about 8 mm, the present invention can be implemented without any problem, which emerges as a very important technology in the present invention and is equally applied to other embodiments to be described later.

In the above configuration, the hole 13 of the circular reinforcing cover 10 may be replaced with a screw hole so that the screw rod 16 can pass through the upper plate 11 in a screw assembly type, and in another embodiment to be described later The hole in the center of the reinforcing cover, that is, the hole through which the power line fixing bolt passes, may be replaced with a screw hole so that the screw rod of the power line fixing bolt is assembled in a screw assembly type.

And in the center of the bottom surface of the screw rod part 16 of the power line fixing bolt 14, a circular hole is formed as shown in the figure, and as shown in FIG. By inserting into the hole, it is also possible to use a known power line pressing plate in the present invention, which reveals that it can be applied to all embodiments of the present invention.

Next, look at Example 2 of the present invention. The structure can be easily seen through FIGS. 3, 11, and 12. A space portion into which the head portion of the line post insulator is inserted is formed below the upper plate 21 of the reinforcing cover 20, and is formed at the edge of the upper plate 21. A vertical ring portion 22 is formed, and in the center of the upper plate 21, a hole 23 through which the screw rod portion 16 of the power line fixing bolt 14 passes is formed, and a hole 23 is formed on the bottom surface of the upper plate 21. A protruding ring portion 24 having a larger diameter than the diameter of is formed.

This is also inserted into the protruding ring 24 of the reinforcing cover 20, and the screw rod 16 of the power line fixing bolt 14 is assembled to the left and right threads of the power line seating groove of the line post insulator, so that the power line is fixed and the height is increased at the same time. As it shrinks, elasticity is applied to the upper plate 21 of the reinforcing cover 20 so that the reinforcing cover 20 does not deviate or move from the head portion of the line post insulator. The resilient means is a rubber ring or an insulating coil spring. Alternatively, the insulating bellows tube body is selected from among the insulating coil springs made of plastic and the insulating bellows tube body made of rubber, plastic, synthetic resin, etc. can be easily understood through FIGS. 8 and 9 .

This embodiment 2 differs from Embodiment 1 in that the resilient means is provided on the outside of the insulating reinforcing cover when compared with the 1, only the difference is that the resilient means is provided on the inside of the insulating reinforcing cover, as shown in FIG. 4, the reinforcing cover 20 ) The protruding ring portion 24 is formed on the bottom surface of the upper plate 21 so that the above-described rubber ring or insulating bellows tube body or insulating coil spring can be used by sandwiching the protruding ring portion 24 .

This embodiment 2 differs from Embodiment 1 only in the position of the resilient means, and its action and effect are the same as in Embodiment 1, wherein the rubber ring on the inside of the reinforcing cover 20 as shown in FIG. When described as an example of being sandwiched in the, as in the state of FIG. 11 , in the state in which the screw rod 16 of the power line fixing bolt 14 is assembled to the screw portion of the head, between the bottom surface of the screw rod 16 and the upper surface of the power line The gap (G) is maintained in the bar, and the reason for this has been described in Example 1, so a duplicate description will not be made.

Subsequently, when the power line fixing bolt 14 is further tightened in the state of FIG. 11, the free height of the rubber ring is reduced, and the bottom surface of the screw rod 16 is in contact with the upper end of the power line as shown in FIG.

At this time, since the rubber ring exerts an elastic force as the free height is reduced as shown in FIG. 15, the elastic force is applied to the reinforcing cover 20 in a state in close contact with the upper surface of the head portion, so the reinforcing cover 20 is attached to the head portion. Since the position is fixed while being inserted, the insulating fixing cover 20 does not separate from the head part even when shock and vibration are applied, and furthermore, it suppresses the action of the head part opening to the left and right based on the power line seating groove, thereby fixing the power line The threaded rod portion 16 of the bolt 14 is not to be separated from the screw portion of the head portion.

Next, Example 3 of the present invention will be looked at. The structure can be easily seen through FIGS. 4, 5 and 13 , and the screw rod part 34 and the hexagonal head part 32 form a body in the reinforcement cover 30 . And as in the example of the second embodiment, the protruding ring part 35 is provided on the inside of the reinforcing cover 30 so that the elastic means as described above can be inserted. Here, the resilient means may be replaced with a rubber ring, an insulating coil spring, or an insulating bellows tube body, and the related description is provided through the second embodiment, so a duplicate description will not be made. On the other hand, in the example of Embodiment 3 of the present invention, the use of a rubber ring as an elastic means will be described as an example.

In this third embodiment, the hexagonal head part 32 is provided in the upper center of the upper plate 31 and the screw rod part 34 is formed in the center of the bottom surface of the upper plate 31, so that the hexagonal head part 32 is used as a tool. As shown in FIG. 13, the screw rod part 34 can be assembled to the screw part formed in the head part of the line post insulator, as in the description of the previous embodiment, between the bottom surface of the screw rod part 34 and the upper surface of the power line. At this time, a gap (G) is formed, and the rubber ring is not compressed and maintains a free height.

Subsequently, when the hexagonal head part 32 is further tightened in the state of FIG. 16 , the free height of the rubber ring 36 is reduced while the bottom surface of the screw rod part 34 is in contact with the upper end of the power line as shown in FIG. 14 and pressing the power line Fix it.

At this time, since the reinforcing cover 30 also descends, the rubber ring exerts a resilient force as the free height is reduced as shown in FIG. As the reinforcing cover 30 is fixed in position while being inserted into the head, the reinforcing cover 30 does not separate from the head even when shock and vibration are applied. is suppressed, and thereby the screw rod portion 34 does not separate from the screw portion of the head portion.

Next, look at Example 4. This has a characteristic of having a structure completely different from all the above-described embodiments, and has a structure in which the resilient means applied in the above-described embodiment is omitted and the reinforcing cover 40 itself functions as a resilient means.

That is, the structure of the reinforcing cover 40 can be easily understood through FIGS. 15 and 16 , and the inside of the annular body 41 is formed with a space in which the head part of the line post insulator is inserted, and upward of the annular body 41 . The inclined tube portion 42 extends, and in the center of the upper surface 43 extending from the inclined tube portion 42, a hole 44 through which the screw rod portion 16 of the power line fixing bolt 14 passes is formed, so that the inclined tube portion (42) The bar itself may have elasticity, which can replace the elastic means applied to the above-described embodiments. Here, as in the case of FIGS. 17 and 18 , it is also possible to further add a cut-out gap 42a in all directions from the inclined tube part 42 of the reinforcing cover 40 to the upper surface 43, and also the above-mentioned hole 44 is It is indicated that it can be replaced with a screw hole.

As shown in FIG. 19 , the screw rod 16 of the power line fixing bolt 14 penetrates the hole 44 of the reinforcing cover 40 and is assembled to the screw portion of the head, and the screw rod of the power line fixing bolt 14 is A gap (G) is maintained between the bottom surface of (16) and the top surface of the power line according to the method as presented in the above-described embodiments. Of course, in this state, the inclined pipe portion 42 of the reinforcing cover 40 is a state in which the downward pressure is not received from the reinforcing end 17 of the power line fixing bolt 14 .

Then, as shown in FIG. 20, when the power line fixing bolt 14 is further tightened, the inclined pipe part 42 is compressed downward and elastic force is applied. As the reinforcing cover 40 is stably inserted into the head and the position is fixed, since resilient force is applied to the reinforcing cover 40 by the principle of action and reaction while the reinforcing cover 40 is also subjected to shock and vibration, the head It does not separate from the part, and furthermore, it suppresses the action of the head part opening to the left and right based on the power line seating groove, whereby the screw rod part 16 of the power line fixing bolt 14 does not separate from the screw part of the head part will be.

Next, the fifth embodiment of the present invention will be examined. In the fifth embodiment, the reinforcing cover 10 of Embodiment 1 is used as it is, and the power line fixing bolt 60 having a unique structure is used.

This uses the reinforcing cover 10 described above, and as shown in FIGS. 21 and 22 , a funnel-shaped inclined tube body 63 is formed between the hexagonal head part 61 and the screw rod part 62 , and the inclined tube body 63 is formed. ) and the screw rod part 62, the screw rod part 62 is assembled to the left and right threads of the power line seating groove of the line post insulator, and the power line fixing bolt ( 60) consists of

Here, in the inclined tube body 63, a cut-out gap 63a may be further formed in all directions as shown in FIGS. 23 and 24, and the shape of the inclined tube body 63 is changed to a semicircular shape, that is, a shape similar to that of an upside-down bowl. It is natural that such a commercial change is subject to the scope of the present invention.

Example 5 of the present invention uses the power line fixing bolt 60 having a unique structure as described above. At the same time as inserting, the power line fixing bolt 60 assembled in the hole 13 of the reinforcing cover 10 is rotated so that the screw rod part 62 is assembled to the screw part of the head part, but the bottom surface of the screw rod part 62 A gap (G) is also maintained between the power line and the upper end of the power line.

Then, when the power line fixing bolt 60 is further tightened to lower it, as shown in FIG. 28, the bottom surface of the screw rod part 62 presses the upper end of the power line to fix it. At the same time, the inclined tube body 63 is the upper surface of the reinforcing cover 10 As it descends toward (11), as shown in FIG. 28 , the inclined tube body 63 is opened to apply a resilient force to the upper surface of the reinforcing cover 10 .

Therefore, as the reinforcing cover 10 is stably inserted into the head and the position is fixed, the reinforcing cover 10 does not separate from the head even when shock and vibration are applied. This will suppress the action to be lost, and thereby the screw rod portion 62 of the power line fixing bolt 60 will not be separated from the screw portion of the head portion.

Next, Example 6 of the present invention will be looked at. As shown in FIGS. 32 and 33 , a space in which the head part of the line post insulator is inserted is formed below the upper plate 71 , and a vertical ring part 72 is formed at the edge of the upper plate 71 , and at the center of the upper plate 71 . A circular reinforcing cover 70 in which a hole 73 through which the screw rod part of the power line fixing bolt penetrates is formed and a circular protruding tube body 74 having a larger diameter than the diameter of the hole 73 is formed on the bottom surface of the upper plate 71 And, it is made using the power line fixing bolt 14 used in the example of Embodiment 1.

Embodiment 6 having such a structure inserts the reinforcing cover 70 into the head portion as shown in FIG. 34 and rotates the power line fixing bolt 14 at the same time so that the screw rod portion 16 is assembled to the screw portion of the head portion. A gap G is also maintained between the bottom surface of the screw rod 16 and the upper end of the power line, and at this time, the pressure is not applied to the circular protruding tube body 74 .

Then, as the screw rod 16 descends by further tightening the power line fixing bolt 14, the bottom surface of the screw rod 16 presses the upper end of the power line to fix the power line as shown in FIG. As described above, when the screw rod 16 further descends, the reinforcing cover 70 is pressed down, and accordingly, the protruding tube body 74 that was in contact with the upper surface of the head receives pressure and the lower end opens as shown in FIG. It will act as an elastic force.

Therefore, as the reinforcing cover 70 is stably inserted into the head and fixed in position, the reinforcing cover 70 does not separate from the head even when shock and vibration are applied. This will suppress the action to be lost, and thereby the screw rod portion 16 of the power line fixing bolt 14 will not be separated from the screw portion of the head portion.

Next, Example 7 of the present invention will be looked at.

As shown in FIGS. 36 and 37 , a hexagonal head 82 is formed in the center of the upper surface of the upper plate 81 , and a space in which the head part of the line post insulator is inserted is formed below the upper plate 81 , and the edge of the upper plate 81 . A vertical ring portion 83 is formed, a screw rod portion 84 is formed on the lower surface of the central portion of the upper plate 81 , and a circular protrusion having a diameter greater than the diameter of the screw rod portion 84 on the bottom surface of the upper plate 81 . The tube body 85 is formed.

Here, a circular hole may be further formed in the center of the bottom surface of the screw rod part 84 so that the power line pressing plate can be assembled to the screw rod part 84 and used as described above.

In Example 7 having such a structure, the reinforcing cover 80 is inserted into the head as shown in FIG. 38 , and at the same time, the tool is inserted into the hexagonal head 82 and rotated so that the screw rod 84 is the head. It is assembled to the screw part of the part, and a gap G is also maintained between the bottom surface of the screw rod part 84 and the upper end of the power line, and at this time, pressure is not applied to the circular protruding tube body 85 .

Subsequently, as the reinforcing cover 80 descends by further tightening the hexagonal head 82, the bottom surface of the screw rod 84 presses the upper end of the power line to fix the power line as shown in FIG. In this way, when the screw rod part 84 is further lowered, the reinforcing cover 80 naturally descends, so the protruding tube body 85 that was in contact with the upper surface of the head receives pressure and the lower end opens as shown in FIG. will work.

Therefore, as the reinforcing cover 80 is stably inserted into the head and the position is fixed, the reinforcing cover 80 does not separate from the head even when shock and vibration are applied. This will suppress the action to be lost, and thus the screw rod 84 will not be separated from the screw portion of the head.

On the other hand, in all embodiments of the present invention described above, the reinforcing cover and the power line fixing bolt may be coated with various types of non-conductive surface protection film agents currently used in the market, and may have various colors through this.

In addition, each of the above-described reinforcing covers is exemplified to be manufactured based on a circular shape, but in some cases, it is natural that the external shape may be formed in the form of a hexagon or an octagon.

The present invention as described above prevents the head portion from spreading to the left and right based on the power line seating groove formed in the head portion of the line post insulator, so that the power line fixing bolt is loosened from the screw portion of the head portion or the power line is fixed as the screw portion is separated from the screw portion of the head portion. It is possible to prevent the negative effects of loss of the function to make the system, and thereby has a very useful effect to prevent electrical safety accidents in advance.

In addition, in the present invention, the difference between the large diameter and the small diameter in the diameters of large, medium, and small power lines is about 8 mm, so even if only one type is produced, the diameter of the small size of the power line can be fixed so that the diameter of the large size of the power line can be fixed. It has the advantage of not causing confusion in the work even if the diameter of the power line is changed frequently because a new technology that can fix it up to

1 is a front view showing a power line fixing bolt 14 of the present invention.
Figure 2 is a perspective view showing the reinforcing cover 10 of the present invention.
Figure 3 is a cross-sectional view showing a reinforcing cover according to another embodiment of the present invention.
Figure 4 is a plan view showing a reinforcing cover according to another embodiment of the present invention.
5 is a vertical vertical cross-sectional view of the central portion based on FIG.
6 is a reference diagram of a state of use according to the first embodiment of the present invention;
7 is a partially enlarged view based on FIG. 6 .
8, 9, and 10 are reference views showing examples of application of the elastic means in the present invention.
11 is a reference diagram of a use state according to a second embodiment of the present invention;
12 is a partially enlarged view based on FIG. 11 ;
Fig. 13 is a reference diagram of a use state according to a third embodiment of the present invention;
14 is a partially enlarged view based on FIG. 13 ;
15 is a plan view showing another reinforcing cover of the present invention.
16 is a vertical longitudinal cross-sectional view of the central portion based on FIG. 15 .
17 is a plan view showing an application embodiment of another reinforcing cover of the present invention.
18 is a vertical longitudinal cross-sectional view of the central portion based on FIG.
Fig. 19 is a reference diagram of a use state according to a fourth embodiment of the present invention;
20 is a partially enlarged view based on FIG. 19 .
21 is a plan view showing another power line fixing bolt of the present invention.
22 is a vertical longitudinal cross-sectional view of the central portion based on FIG.
23 is a plan view showing an application embodiment of another reinforcing cover of the present invention.
24 is a vertical longitudinal cross-sectional view of the central portion based on FIG. 23 .
Figure 25 is a plan view showing a state in which the power line fixing bolts are assembled to the reinforcing cover in the fifth embodiment of the present invention.
26 is a vertical longitudinal cross-sectional view of the central portion based on FIG.
27 and 28 are reference views of the use state according to the fifth embodiment of the present invention.
29 is a reference diagram showing a state in which a power line is pressed and fixed using a power line pressing plate by representatively setting a fifth embodiment of the present invention.
30 is a plan view showing an example of a line post insulator to which the present invention can be applied.
FIG. 31 is a front view of partial cross-sectional processing of only the upper side so that a power line insertion path appears in an example of a line post insulator based on FIG.
Figure 32 is a cross-sectional view showing another reinforcing cover of the present invention.
Fig. 33 is a bottom view based on Fig. 32;
Fig. 34 is a reference diagram of a use state according to the sixth embodiment of the present invention;
FIG. 35 is a partially enlarged view based on FIG. 34;
Figure 36 is a cross-sectional view showing another reinforcing cover of the present invention.
Fig. 37 is a bottom view based on Fig. 36;
38 is a reference diagram of a use state according to the seventh embodiment of the present invention;
Fig. 39 is a partially enlarged view based on Fig. 38;
[Explanation of symbols for main parts of the drawing]
10, 20, 30, 40, 70, 80: reinforcing cover
14, 60, 45: power line fixing bolt

.

Claims (18)

A space portion into which the head portion of the line post insulator is inserted is formed below the upper plate 11, a vertical ring portion 12 is formed at the edge of the upper plate 11, and a hole through the center of the upper plate 11 for a power line fixing bolt ( 13) is formed with a circular reinforcing cover 10 and;
A reinforcing end 17 is formed between the hexagonal head 15 and the screw rod 16, and the screw rod 16 is assembled to the left and right threads of the power line seating groove of the line post insulator, and the power line is hung in the power line seating groove. a power line fixing bolt 14 for fixing it so that it does not move;
The power line fixing bolt 14 is inserted into the screw rod 16 of the power line fixing bolt 14 and positioned between the upper plate 11 of the reinforcing cover 10 and the reinforcing end 17 of the power line fixing bolt 14. The screw rod portion 16 of the line post insulator is assembled to the left and right screw portions of the power line seating groove to fix the power line and at the same time reduce the height and apply elasticity to the upper plate 11 of the reinforcing cover 10 to reinforce the cover (10) A line post insulator for line post insulator, characterized in that it comprises a resilient means for preventing separation or movement from the head portion of the line post insulator, wherein the resilient means is selected from an insulating plate spring or an insulating bellows tube body or an insulating coil spring or a rubber ring power line fixtures. delete delete delete A space portion into which the head portion of the line post insulator is inserted is formed below the upper plate 21, a vertical ring portion 22 is formed at the edge of the upper plate 21, and a hole through the center of the upper plate 21 for a power line fixing bolt ( 23) is formed and a circular reinforcing cover 20 in which a protruding ring portion 24 having a larger diameter than the diameter of the hole 23 is formed on the bottom surface of the upper plate 21;
A reinforcing end 17 is formed between the hexagonal head 15 and the screw rod 16, and the screw rod 16 is assembled to the left and right threads of the power line seating groove of the line post insulator, and the power line is hung in the power line seating groove. a power line fixing bolt 14 for fixing it so that it does not move;
The screw rod 16 of the power line fixing bolt 14 is assembled to the left and right threads of the power line seating groove of the line post insulator while being inserted into the protruding ring 24 of the reinforcing cover 20 to fix the power line and reduce the height at the same time. Power line fixing for line post insulators, characterized in that it includes a resilient means for applying elasticity to the upper plate 21 of the reinforcing cover 20 and preventing the reinforcing cover 20 from being separated from or moving from the head portion of the line post insulator. Instrument. [6] The power line fixing mechanism for a line post insulator according to claim 5, wherein the resilient means is selected from a rubber ring, an insulating coil spring, and an insulating bellows tube body. 6. The power line fixing mechanism for a line post insulator according to claim 5, wherein the hole (23) is replaced with a screw hole. A hexagonal head portion 32 is formed in the center of the upper surface of the upper plate 31, a space portion into which the head portion of the line post insulator is inserted is formed below the upper plate 31, and a vertical ring portion 33 is formed at the edge of the upper plate 31 A circular reinforcing cover with a protruding ring part 35 having a larger diameter than the diameter of the screw rod part 34 is formed on the bottom surface of the upper plate 31 and formed on the lower surface of the central part of the upper plate 31. (30) and;
While being inserted into the protruding ring part 35 of the reinforcing cover 30, the screw rod part 34 of the reinforcing cover is assembled to the screw on the left and right sides of the power line seating groove of the line post insulator to fix the power line and at the same time reduce the height of the reinforcing cover ( 30) A power line fixing mechanism for a line post insulator, characterized in that it includes a resilient means for applying elasticity to the upper plate 31 to prevent the reinforcing cover 30 from being separated from or moving from the head portion of the line post insulator. [Claim 9] The power line fixing mechanism for a line post insulator according to claim 8, wherein the elastic means is selected from a rubber ring, an insulating coil spring, and an insulating bellows tube body. [9] The power line fixing mechanism for a line post insulator according to claim 8, wherein a circular hole is additionally formed on the bottom surface of the screw rod part (34) of the reinforcing cover. The inside of the annular body 41 is formed with a space in which the head part of the line post insulator is inserted, and the inclined pipe part 42 extends above the annular body 41, and the upper surface 43 extending from the inclined pipe part 42 is formed. a reinforcing cover 40 having a hole 44 through which the screw rod part of the power line fixing bolt passes in the center;
A reinforcing end 17 is formed between the hexagonal head 15 and the screw rod 16, and the screw rod 16 is assembled to the left and right threads of the power line seating groove of the line post insulator, and the power line is hung in the power line seating groove. Power line fixing mechanism for line post insulator, characterized in that it comprises a power line fixing bolt (14) for fixing so as not to move. The power line fixing mechanism for a line post insulator according to claim 11, wherein a cut-out gap (42a) is further added in all directions from the inclined tube portion (42) to the upper surface (43) of the reinforcing cover (40). The power line fixing mechanism for a line post insulator according to claim 11, wherein the hole (44) in the center of the upper surface (43) is replaced with a screw hole. A space portion into which the head portion of the line post insulator is inserted is formed below the upper plate 11, a vertical ring portion 12 is formed at the edge of the upper plate 11, and a hole through the center of the upper plate 11 for a power line fixing bolt ( 13) is formed with a circular reinforcing cover 10 and;
A funnel-shaped inclined tube body 63 is formed between the hexagonal head part 61 and the screw rod part 62, and has a space between the inclined tube body 63 and the screw rod part 62, and the screw rod part 62 is formed. A power line fixing mechanism for a line post insulator, characterized in that it consists of a power line fixing bolt (60) that is assembled on the left and right sides of the power line seating groove of the line post insulator to fix the power line hanging in the power line seating groove so that it does not move. [15] The power line fixing mechanism for a line post insulator according to claim 14, wherein the inclined tube body (63) has cut-out gaps (63a) in all directions. A space portion into which the head of the line post insulator is inserted is formed below the upper plate 71 , a vertical ring portion 72 is formed at the edge of the upper plate 71 , and the screw rod of the power line fixing bolt passes through the center of the upper plate 71 . a circular reinforcing cover 70 in which a hole 73 is formed and a circular protruding tube body 74 having a larger diameter than the diameter of the hole 73 is formed on the bottom surface of the upper plate 71;
A reinforcing end 17 is formed between the hexagonal head 15 and the screw rod 16, and the screw rod 16 is assembled to the left and right threads of the power line seating groove of the line post insulator, and the power line is hung in the power line seating groove. A power line fixing mechanism for a line post insulator, characterized in that it consists of a power line fixing bolt (14) that is fixed so as not to move. A hexagonal head portion 82 is formed in the center of the upper surface of the upper plate 81, a space portion into which the head portion of the line post insulator is inserted is formed below the upper plate 81, and a vertical ring portion 83 is formed at the edge of the upper plate 81. It is formed and a screw rod part 84 is formed on the lower surface of the central part of the upper plate 81, and a circular protruding tube body 85 having a larger diameter than the diameter of the screw rod part 84 is formed on the lower surface of the upper plate 81. Power line fixing mechanism for line post insulators. The power line fixing mechanism for a line post insulator according to claim 17, wherein a circular hole is further formed in the center of the bottom surface of the screw rod part (84).

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