KR101933128B1 - Extensible concrete type utility pole unit - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an electric pole for installing a power line, and more particularly, to an extendable concrete electric pole unit having a structure that can be assembled in a longitudinal direction so as to be easily carried in a narrow space.
An extensible concrete electric pole unit according to the present invention is a pole in which a power line or a communication line is installed, the electric pole is formed by fastening a plurality of electric pole units (10) (20) And a fastening member for fastening the ends of the other electric pole units 10 and 20 to each other by means of fastening means is provided at an end of each of the electric pole units 10 and 20 to fasten the fastening members to each other, And the means is located inside the diameter of the electric pole unit (10) (20).

Description

[0001] EXTENSIBLE CONCRETE TYPE UTILITY POLE UNIT [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an electric pole for installing a power line, and more particularly, to an extendable concrete electric pole unit having a structure that can be assembled in a longitudinal direction so as to be easily carried in a narrow space.

Electric pole for installing power line or communication line is manufactured in advance with a predetermined length, and is moved to the site before installation.

Most of these poles are made of a concrete pole made of concrete. They are made of steel pipes made of steel pipes for over 18m above the ground and for crossing the river.

The concrete pole is moved to a site in a state of being manufactured in a factory, and it is difficult to carry and install the concrete pole due to the length of the concrete pole during installation on site.

That is, the concrete pole is manufactured in a factory with a predetermined length of 14 m, 16 m, etc., and then transported to the installation site. However, when the moving road or installation site is narrow, transportation and installation are not easy. There is a problem in that a vehicle loaded with the concrete pole can not be entered in a narrow space or the concrete pole is caught in surrounding facilities at the time of traveling or the concrete pole can not be vertically installed for installation.

In this way, it is difficult to transport and install the concrete pole due to the narrow space, so it is impossible to replace the old or damaged concrete pole with a proper one, and it is necessary to reinforce it temporarily by a method such as reinforcement of the ground wire or reinforcement of the aramid, And the like.

Meanwhile, the following prior art documents disclose an invention relating to a "male and female tensile plate structure formed integrally with a marine plate and a method for manufacturing a concrete pole using the same.

KR 10-2012-0117092E

The present invention has been made to solve the above-mentioned problems, and provides an extensible concrete electric power unit having a structure capable of extending in a longitudinal direction at an end portion thereof and extending in a longitudinal direction thereof to be used in a desired length There is a purpose.

According to an aspect of the present invention, there is provided an extendable concrete electric pole unit, comprising: a plurality of electric pole units mounted on a power line or a communication line, The end of each electric pole unit is provided with a fastening member which is fastened to the end of another adjacent electric pole unit by means of fastening means to fasten the fastening member by being brought into contact with each other, and the fastening means is located inside the diameter of the electric pole unit .

Wherein the fastening member is a flange which receives the end of the electric pole unit and has a fastening portion extending from the flange body formed to extend from the end of the electric pole unit by a predetermined length in the radial direction of the electric pole unit .

A connecting portion of the upper flange provided at the lower end of the electric pole unit located at the upper position among the electric pole units to be fastened to each other and a connecting portion of the lower flange provided at the upper end of the electric pole unit located at the lower portion, And the fastening means is a fastening bolt passing through the fastening hole and a fastening nut screwed to the fastening bolt.

And the diameter of the coupling portion is formed to be equal to or smaller than the diameter of the electric pole unit.

And the cover may further include a cover surrounding the fastening unit at a portion where the electric pole unit located at the upper portion and the electric pole unit located at the lower portion are fastened.

And a pole accommodating portion formed to extend in the longitudinal direction of the electric pole unit along the periphery of the flange so as to receive a portion adjacent to the end portion of the electric pole unit.

The spacing between the pole receiving portion and the fastening portion in the upper flange and the lower flange is different from each other, and the fastening bolt is inserted through the gap.

And a distance between the pole receiving portion and the coupling portion in the lower flange is larger than a distance between the pole receiving portion and the coupling portion in the upper flange.

And an inner side surface of the electric pole accommodating portion is formed to be wrinkled.

Both ends of the upper flange and the lower flange in the radial direction of the electric pole unit are connected to the electric pole accommodating portion and the coupling portion between the electric pole accommodating portion and the engaging portion and a web contacting the periphery of the flange main body Is formed.

A connection protrusion is formed on one of the bottom surface of the upper flange and the upper surface of the lower flange and a connection groove for receiving the connection protrusion is formed on the other side.

Wherein the flange body is formed with a plurality of steel bar mounting holes spaced apart in the circumferential direction of the flange body so as to penetrate the flange body in the longitudinal direction of the electric pole unit, And the rest of the tensile steel rods are buried in the electric pole unit.

Wherein the steel bar mounting hole is formed so as to communicate with a large diameter portion having a large diameter and a small diameter portion having a diameter smaller than the large diameter portion along the circumferential direction of the flange body, And the tensile steel bar is inserted into the large diameter portion, and then the small diameter portion is moved and fixed after being inserted into the large diameter portion.

The electric pole unit is made of concrete, and the flange and the tensile steel bar are made of metal.

According to the extendable concrete electric pole unit according to the present invention having the above-described structure, after the concrete electric pole unit is manufactured in a state of being separated from the other concrete electric pole unit adjacent to the end of the concrete electric pole unit, It can be manufactured as a concrete pole assembly by assembling in the field.

Concrete pole unit can be manufactured and transported to the site, making it easy to transport and install in a small space, thus replacing expensive steel pipes.

In addition, since the concrete pole can be applied in a narrow space, it is possible to replace the old or damaged concrete pole with a timely replacement.

1 is a front view showing an extensible concrete electric pole unit according to the present invention;
2 is an enlarged front view of a portion to which an extendable concrete electric pole unit according to the present invention is connected.
3 is a cross-sectional view showing a portion where an extensible concrete electric pole unit according to the present invention is connected;
4 is a cross-sectional view of an upper flange and a lower flange in an extensible concrete electric pole unit according to the present invention.
FIG. 5 is a perspective view showing a main portion of an upper electric power unit among extensible concrete electric pole units according to the present invention; FIG.
6 is a bottom view showing the bottom surface of the upper flange installed in the upper electric pole unit among the extendable concrete electric pole units according to the present invention.

Hereinafter, an extendable concrete electric pole unit according to the present invention will be described in detail with reference to the accompanying drawings.

The extensible concrete electric pole unit according to the present invention is divided into a plurality of electric pole units 10 and 20 made of concrete and the electric pole units 10 and 20 are provided at the ends of the electric pole units 10 and 20, (10) and (20) are fastened to each other to fasten the fastening units to each other to fasten the fastening units to one pole assembly (1) by fastening the fastening members to each other do.

One electric pole assembly 1 can be divided into a plurality of electric pole units 10 and 20. In the present embodiment, the electric pole pole assembly 1 is divided into two electric pole units 10 and 20 Will be described as an example.

For convenience, the electric pole unit located at the upper part is referred to as an upper electric pole unit 10 and the electric pole unit located at the lower part of the upper electric pole unit 10 is referred to as a lower electric pole unit 20.

The upper electrode unit 10 and the lower electrode unit 20 are connected to each other at a portion where the upper and lower electric units 10 and 20 are fastened together, A fastening member for fastening the lower electric pole unit 20 is provided.

At this time, by making the fastening member equal to or smaller than the diameter of the upper electric unit 10 and the lower electric unit 20, it is possible to prevent the fastening member from protruding to the outside of the electric pole assembly 1 do. This is because, when the fastening means for fastening the fastening member or the fastening member is exposed to the outside, the cable may be caught by the fastening member or the fastening means when the cable is installed.

The fastening member may be an upper flange 30 provided at the lower end of the upper electrification unit 10 or a lower flange 40 provided at the upper end of the lower electromotive unit 20.

The upper flange 30 includes a flange main body 31 positioned at a lower portion of the upper electrification unit 10 and an electrification accommodating portion 31 extending from the flange main body 31 in the longitudinal direction of the upper electrification unit 10 32 are coupled to the upper flange 30 and the upper electrification unit 10 by receiving the ends of the upper electrification unit 10.

A coupling part 33 is formed at an end of the flange body 31, that is, at an end opposite to the part where the electric pole accommodating part 32 is formed, so as to extend in the radial direction of the upper electric pole unit 10. 3, the diameter of the fastening portion 33 is formed to be equal to or smaller than the diameter of the upper electrification unit 10, so that the fastening portion 33 is formed to have the same diameter as that of the upper electrification unit 10 So as not to protrude outward.

The fastening part (33) is formed with a fastening hole (34) for fastening fastening means around the circumference.

Further, it is preferable that the inner surface of the electric pole accommodating portion 32 is formed to be wrinkled so as to improve the fastening force with the upper electric pole unit 10.

An upper end and a lower end are connected to the electric pole accommodating portion 32 and the engaging portion 33 between the electric pole accommodating portion 32 and the engaging portion 33, (36) are formed. The strength of the upper flange 30 can be improved by the web 36.

At this time, it is preferable that the web 36 is formed between two adjacent fastening holes 34.

The upper flange 30 is provided with a steel bar mounting hole (not shown) in which the end of the tensile steel bar 60 is fixed to the upper flange 30 37 are formed at a plurality of intervals in the circumferential direction of the upper flange 30.

The steel rod mounting hole 37 is formed in the flange main body 31 of the upper flange 30. The large diameter portion 37a having a large diameter and the small diameter portion 37b having a diameter smaller than that of the large diameter portion 37a Respectively. Particularly, the small diameter portion 37b is formed so as to be smaller in diameter in the longitudinal direction from the end portion of the flange body 31.

In order to improve the tensile strength of the upper electric pole unit 10, the upper electric pole unit 10 may be installed with the tensile steel rods 60 fixed to the upper flange 30. The tensile steel rods 60 serve not only to improve the tensile strength but also to improve the fastening force between the upper flange 30 and the upper electric pole unit 10.

The portion of the tensile steel bar 60 fastened to the upper flange 30 is formed to have a smaller diameter from the end. This is because the diameter of the end portion of the tensile steel bar 60 is larger than the remaining portion and the tensile steel bar 60 is inserted through the large diameter portion 37a and then moved to the small diameter portion 37b, So that the tensile steel bar 60 is fixed to the upper flange 30.

The tensile steel rods 60 are embedded in the upper electrode unit 10 made of concrete to improve the tensile strength of the upper electrode unit 10. The tensile steel bar 60 is made of a steel material and has an end fixed to the upper flange 30 and the remaining part embedded in the upper electric unit 10.

The lower flange 40 is also formed in a shape similar to the upper flange 30.

The lower flange 40 extends from the flange main body 41 and is formed with an electric pole accommodating portion 42 for receiving the lower electric pole unit 20. The fastening portion 43 is formed to extend in the radial direction of the fastening portion 43 and the fastening hole 43 is formed in the fastening portion 43 and the fastening hole 44 is formed in the fastening portion 43, A web 46 is formed.

The diameter of the coupling part 43 of the lower flange 40 is formed to be equal to or smaller than that of the lower electric power unit 20 so as not to protrude outside the lower electric power unit 20.

The upper flange 30 and the upper flange 30 may be formed in the same shape and may be installed in the upper and lower electromagnet units 10 and 20 in a manner facing each other, It is preferable that they are formed at different heights.

This is because the side of the upper flange 30 and the lower flange 40 where the fastening bolt 71 is inserted is set to a height of the lower flange 40 so that the fastening bolt 71 can be inserted smoothly. It is preferable to form a large number of pixels.

3, the height of the flange body 41 of the lower flange 40 is made larger than the height of the flange body 31 of the upper flange 30, The spacing between the electric pole accommodating portion 42 and the fastening portion 43 is greater than that in the upper flange 30 so that the fastening bolt 71 can be easily inserted.

A connection protrusion 45 is formed on one of the bottom surface of the upper flange 30 and the upper surface of the lower flange 40 and a connection groove 45 35 are preferably formed. 3 and 4, a connection groove 35 is formed in a lower portion of the upper flange 30 and a connection protrusion 45 is formed on an upper surface of the lower flange 40, The upper flange 30 and the lower flange 40 can be easily assembled by matching the connection groove 35 and the connection protrusion 45. [ The connection groove 35 and the connection protrusion 45 are preferably spaced apart from one another along the circumference.

The inner surface of the electric pole accommodating portion 42 may also be formed to be wrinkled to improve the engaging force with the lower electric pole unit 20.

The lower flange 40 is also provided with a tensile steel bar 60 as described above. The flange body 41 of the lower flange 40 is also provided with a steel bar mounting hole 47 such as that formed in the upper flange 30 for installing the tensile steel bar 60 therein.

The flanges 30 and 40 are preferably made of a metal such as steel.

The cover 50 is provided at a portion to be fastened to the upper flange 30 and the lower flange 40 so as to surround a portion where the upper flange 30 and the lower flange 40 are fastened, The upper flange 30 and the lower flange 40, particularly the joint portions 33 and 43, are not exposed. This is because the cable may be caught by the fastening member or the fastening means when the cable is constructed, which may be inconvenient for the user, and to solve the psychological anxiety felt as if the pole is separated.

In other words, the fastening members, that is, the flanges 30 and 40, are provided at the end portions of the divided electric unit that are fastened to the adjacent other electric unit. If the three electric units are fastened, And may be installed at the upper end of the electric pole unit located at the lower end and the middle of the electric pole unit located at the lower end and the lower end.

The process of assembling the pole assembly with the extendable concrete electric pole unit having the above-described configuration will be described as follows.

The electric pole units 10 and 20 manufactured in the factory or the like in advance have short lengths as compared with the electric pole assembly 1 so that they can be easily carried in a narrow space.

The lower electric pole unit 20 is buried in the ground and fixed to the lower end of the lower electric pole unit 20 and then the upper electric pole unit 10 is fixed to the upper end of the lower electric pole unit 20, .

The upper flange 30 and the lower flange 40 are fastened with fastening means in a state where the fastening hole 34 of the upper flange 30 and the fastening hole 33 of the lower flange 40 are aligned with each other . The fastening bolts 71 are threadedly engaged with the fastening bolts 71 in a state where the fastening bolts 71 pass through the fastening holes 34 and 44, ). At this time, the fastening bolt 71 can be easily fastened by inserting the flange main body 41 through the side of the height of the flange main body 41 (the distance between the pole accepting portion and the fastening portion).

The cover 50 is fastened to the fastening portion 33 of the upper flange 30 and the lower flange 40 when the fastening of the upper and lower electric power units 10 and 20 is completed, (43), so that the fastening portions (33) and (43) are not exposed.

Thus, as described above, the electric pole units 10 and 20, which are divided into a plurality of units, are fastened together to form the electric pole assembly 1.

1: Electrode Assembly
10: upper electric pole unit
20: Lower electric pole unit
30: upper flange
31: flange body
32: Electric pole accommodating portion
33:
34: fastening hole
35: connection groove
36: web
37: Tensile steel rod installation ball
37a: Large neck
37b: Small neck
40: upper flange
41: flange body
42:
43:
44: fastening ball
45: connection projection
46: web
47: Tension steel bar installation hole
50: cover
60: Tensile steel bar
71: fastening bolt
72: Clamping nut

Claims (14)

In an electric pole in which a power line or a communication line is installed,
The electric pole is formed by fastening a plurality of electric pole units which are divided in the longitudinal direction and assembled to each other,
Wherein the end of each of the electric pole units is provided with a fastening member which is fastened to the end of another adjacent electric pole unit by fastening means,
The fastening means is located inside the diameter of the electric pole unit,
Wherein the fastening member is a flange which receives an end portion of the electric pole unit and has a fastening portion extending from a flange body formed to extend from the end portion of the electric pole unit by a predetermined length in the radial direction of the electric pole unit,
And a cover surrounding the fastening portion at one time around the fastening unit,
An electric pole accommodating portion formed to extend in the longitudinal direction of the electric pole unit along the periphery of the flange so as to receive a portion adjacent to the end portion of the electric pole unit,
The inner side surface of the electric pole accommodating portion is integrally wrinkled with respect to the entire length along the longitudinal direction of the electric pole accommodating portion,
Wherein the wrinkles formed in the electric pole accommodating portion are integrally formed when the electric pole accommodating portion is formed. delete The method according to claim 1,
A connecting portion of the upper flange provided at the lower end of the electric pole unit located at the upper position among the electric pole units to be fastened to each other and a connecting portion of the lower flange provided at the upper end of the electric pole unit located at the lower portion, A fastening hole is formed,
Wherein the fastening means is a fastening bolt passing through the fastening hole and a fastening nut screwed to the fastening bolt. The method according to claim 1,
Wherein the diameter of the fastening portion is formed to be equal to or smaller than the diameter of the electric pole unit. delete delete The method according to claim 1,
The spacing between the pole receiving portion and the fastening portion in the upper flange and the lower flange is different from each other,
And the fastening bolt is inserted through the wide interval. 8. The method of claim 7,
Wherein an interval between the pole receiving portion and the fastening portion in the lower flange is formed to be larger than a distance between the pole receiving portion and the fastening portion in the upper flange. delete The method according to claim 1,
Both ends of the upper flange and the lower flange in the radial direction of the electric pole unit are connected to the electric pole accommodating portion and the coupling portion between the electric pole accommodating portion and the engaging portion and a web contacting the periphery of the flange main body Wherein the first and second end portions are formed in a substantially cylindrical shape. The method of claim 3,
Wherein a connection protrusion is formed on one of the bottom surface of the upper flange and the upper surface of the lower flange and a connection groove is formed in the other of the connection protrusions to receive the connection protrusion. The method according to claim 1,
Wherein the flange body is formed with a plurality of steel bar mounting holes spaced in the circumferential direction of the flange body so as to penetrate the flange body in the longitudinal direction of the electric pole unit,
The end of the tensile steel bar embedded in the inside of the electric pole unit is fixed to the steel rod mounting hole,
And the remainder of the tensile steel rods are embedded in the electric pole unit. 13. The method of claim 12,
Wherein the steel bar mounting hole is formed so as to communicate with a large diameter portion having a large diameter formed along the circumferential direction of the flange body and a small diameter portion having a diameter smaller than that of the large diameter portion,
Wherein a portion of the tensile steel rod inserted into the steel bar mounting hole is formed so as to have a smaller sectional area from an end portion thereof,
Wherein the tensile steel bar is inserted into the large diameter portion, and then the small diameter portion is moved and fixed. 13. The method of claim 12,
The electric pole unit is made of concrete,
Wherein the flange and the tensile steel bar are made of metal.

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