KR200405985Y1 - Polymer phase spacer structure - Google Patents

Abstract

The present invention relates to a polymer phase spacer structure installed between a power line and a power line as a preliminary countermeasure for failure of a gap between the phases and a snowfall (Galloping, Sleet Jump) by being installed between phases of a single conductor and a corridor transmission line. More specifically, the present invention relates to a polymer phase spacer structure in which the center portion of the installation site is refracted and the refracted portion is prevented from being broken when installed between the power line and the power line.

To this end, the present invention connects each triangular yoke 4 to each end of the core 2 connected to each other by an eye rod 1 via a crevis rod 3, and both bottom portions of the lower side of the triangular yoke 4 are connected. In the polymer interphase spacer structure in which a right angle crevis link 6 having an electric wire clamp 5 is connected, a parallel crevis link 7 is connected between the crevis rod 3 and the triangular yoke 4. It is structured.

Description

Polymer phase spacer structure

1 is a perspective view of a polymer interphase spacer according to the present invention,

2 is an enlarged view illustrating main parts of FIG. 1;

3 is a front view of a conventional polymer interphase spacer,

4 (A) and 4 (B) are state diagrams showing a state in which a spacer between the present invention and a conventional polymer phase is installed on a transmission line.

Explanation of symbols on the main parts of the drawing

1: i-road, 2: core,

3: crevis rod, 4: triangular yoke,

5: wire clamp, 6: right angle crevis link,

7: parallel crevis link, 8: power line,

10: polymer intermediate spacer.

The present invention relates to a polymer phase spacer structure installed between a power line and a power line as a preliminary countermeasure for failure of a gap between the phases and a snowfall (Galloping, Sleet Jump) by installing between phases of a single conductor and a corridor transmission line. More specifically, the present invention relates to a polymer interphase spacer structure in which the center portion of the installation site is refracted during installation between the power line and the power line and also prevents the refracted portion from being broken.

As is well known, a phase spacer that maintains a constant distance between phases of a power line and a power line of a power transmission line is installed between phases of a power transmission line to prevent inter-phase interference of power transmission lines due to meteorological phenomena such as ice and snow. In addition, it is widely used in places where the distance between phases needs to be reduced due to the prevention of damage to the industry caused by the failure of the transmission line and the height limitation.

Typical types of polymer interphase spacers include, but are not limited to, corridor fixed type and 50 cm unit stages, and corridor variable insulating rods 2 to 5, wherein FIG. In the conventional spacer, the triangular yoke 104 is connected to both ends of the cores 102 connected to each other by the eye rods 101 through the crevis rods 103, and both bottom portions of the bottom surfaces of the triangular yoke 104 are connected to each other. The right angle crevis link 106 in which the electric wire clamp 105 was provided is provided, respectively.

In the conventional polymer interphase spacer structure having such a structure, since the material separation is not subdivided and the distance between phases of the transmission line varies according to the site conditions, it is impossible to install a suitable interphase spacer, as shown in FIG. 4 (B). ), There was a problem that the central portion is severely refracted when installed between the power and the power book (8), and there was a need to additionally adjust the proper ear canal after installation.

Therefore, the present invention was devised to solve the conventional problems as described above, and the specification is subdivided to match the distance between phases of the transmission line, so that the center part is not bent when installed for the distance between phases between the power line and the power line. It is an object of the present invention to provide a polymer interphase spacer structure that does not require adjustment of the ear canal, thereby improving phase matching and construction quality.

The present invention for achieving the above object is that each triangular yoke is connected to the both ends of the core connected to each other by the eye rod via a crevis rod, the right side of the bottom yoke of the triangular yoke is a right angle crevis link having a wire clamp In the polymer inter-phase spacer structure formed by connecting, the parallel crevis link between the crevis rod and the triangular yoke, and the wire clamp and the right angle crevis link is manufactured to be connected to the structure.

Hereinafter, the present invention will be described in detail based on the accompanying drawings.

1 is a view showing the overall structure of the polymer interphase spacer according to the present invention, Figure 2 is an enlarged view of the main part of the present invention.

In the present invention, each triangular yoke (4) is connected to both ends of the core (2) connected to each other by the eye rod (1) via a crevis rod (3), and both ends of the bottom of the triangular yoke (4) have electric wires. In the polymer interphase spacer structure in which a right angle crevis link 6 having a clamp 5 is connected, a parallel crevis link 7 is connected between the crevis rod 3 and the triangular yoke 4.

In addition, the wire clamp 5 and the right angle crevis link 6 to which the power line 8 is seated and tightened are manufactured to be separated and connected to each other.

As described above, the polymer inter-phase spacer structure according to the present invention can be installed with materials of appropriate specifications according to the site conditions at the time of construction because the structural parts are detailed in a variable type, and the fine adjustment between the power line 8 and the power book 8 is performed. Matching distance between phases and securing construction quality

Meanwhile, FIG. 4 (A) shows a state where a polymer interphase spacer 10 according to the present invention is installed between a power line 8 and a power line 8 of a transmission line, and a conventional puller as shown in FIG. 4 (B). After the installation of the interphase spacer 100, the middle part of the phase is not bent, and it can be seen that the interphase distance matching and construction quality are improved.

Polymer phase spacer structure according to the present invention as described above is a variable structure, the effect of material savings and fine adjustment between phase distances, the installation is not the phenomenon of bending the middle part of the bent after the installation and the vibration of the bent points after installation It also improves quality.

Claims (2)

Each triangular yoke 4 is connected to both ends of the core 2 connected to each other by an eye rod 1 via a crevis rod 3, and both ends of the lower side of the triangular yoke 4 have electric wire clamps 5. In the polymer interphase spacer structure, in which a right angle crevis link 6 having) is connected, Polymeric interphase spacer structure, characterized in that the parallel crevis link (7) is connected between the crevis rod (3) and the triangular yoke (4). 2. The polymer interphase spacer structure according to claim 1, wherein the wire clamp (5) and the right angle crevis link (6) are each formed in a separate type and connected to each other.

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