KR102170177B1 - Anchor block of electric pole - Google Patents

Abstract

The previous week's price includes the first block, the second block, and U-Volt. A first through hole for accommodating an electric pole is defined in the first near-gauge block, and the first near-gauge block has a shape surrounding one surface of the electric pole. The second near-price block has a second through-hole adjacent to the first through-hole to receive the electric pole, and the second near-price block has a shape surrounding the other side of the electric pole, Face to face.

Description

Jeonju Geunga{ANCHOR BLOCK OF ELECTRIC POLE}

The present invention relates to a Jeonju near price, and more particularly, to a Jeonju near price that enables the installation of electric poles to be more stably erected upon enforcement of the construction method for construction of a construction site buried in the ground.

In the electric pole construction method, a mechanization method using a back hoe and an auger crane is being performed. Among them, electric pole construction using auger crane can be said to be the most common construction method.If you look at the process, excavate as much as the depth of infeed using auger crane, insert the pole into the excavated pit, and then erect it, and then surround the pit where the pole is inserted. Additional excavation by backhoe or manpower to install Jeonju.

However, since the above-described electric pole construction method requires additional backhoe in addition to the auger crane, additional cost is incurred for construction of electric pole construction. Therefore, in recent years, an extended auger crane method that can replace the backhoe has been used.

An object of the present invention is to provide a pole price that can more firmly support the pole in the ground.

In order to achieve the object of the present invention described above, the jeonju root price includes a first root price block, a second root price block, and u-volt.

A first through hole for accommodating an electric pole is defined in the first near-gauge block, and the first near-gauge block has a shape surrounding one surface of the electric pole. The second near-price block has a second through-hole adjacent to the first through-hole to receive the electric pole, and the second near-price block has a shape surrounding the other side of the electric pole, Face to face.

The U-bolt is coupled to an outer surface of the first and second near-value blocks to fasten the first near-value block to the second near-value block.

In an embodiment of the present invention, when viewed in cross section, the first and second near-value blocks have a symmetrical structure.

In an embodiment of the present invention, each of the first and second near blocks includes a first subblock and a second subblock. The first subblock has a first width. The second sub-block has a second width smaller than the first width, and the second sub-block overlaps the first sub-block.

In one embodiment of the present invention, each of the first sub-block and the second sub-block has a semi-ring shape.

In one embodiment of the present invention, each of the first sub-block and the second sub-block of the first near-value block has a semi-ring shape around the first through hole, and the Each of the first sub-block and the second sub-block has a semi-ring shape around the second through hole.

In an embodiment of the present invention, the first sub-block and the second sub-block are alternately overlapped in a plurality of each of the first and second root blocks.

In one embodiment of the present invention, the first sub-blocks are disposed on the uppermost and lowermost sides of the first and second nearest blocks.

In one embodiment of the present invention, the first sub-block and the second sub-block have a shape integrally formed.

In one embodiment of the present invention, the electric pole further includes a connecting member and a nut. The connecting member has a structure surrounding the first near block. The nut is fastened with the U-bolt. In addition, the U-bolt tightens the second sub-block of the first near-value block to the second sub-block of the second near-value block opposite thereto, and a fastening hole through which the U-bolt passes is defined in the connection member. The nut is fastened with the U-bolt passing through the fastening hole.

In one embodiment of the present invention, the connecting member includes a bending portion and a connecting portion. The bending part is bent to surround the second subblock. The connection part extends from each of both ends of the bending part, and the fastening hole is defined in the connection part.

The electric pole root according to the present invention is composed of two root blocks that are separated from each other and fastened with U-bolts, and each of the root blocks has a semi-circular shape so that a plurality of sub-blocks having different widths are overlapped. Therefore, due to the configuration of the sub-blocks having different widths, a step is generated on the side of the pole near the pole, and the area in which the pole near the pole is in contact with soil or concrete increases, so that the pole near the pole can be more firmly buried in the ground.

In addition, according to the present invention, the near-gauge blocks of the electric pole can face each other and support the electric pole with a uniform force in the 360-degree direction. Therefore, even if the weight or height of the pole is increased, a more stable construction method for the pole can be performed by utilizing the root price of the pole.

In addition, the electric pole construction method according to the present invention has a structure applicable to the construction method of the construction using the extended auger crane equipped with the extended excavation unit, and the excavation work is performed with a single extended auger crane, and the electric pole of the present invention is constructed. Thus, it is possible to carry out the construction method for the electric pole. Therefore, the cost and time required for the construction method can be reduced.

1A is an exploded perspective view of a Jeonju root price according to an embodiment of the present invention.
Fig. 1B is a side view of the near price of Jeonju shown in Fig. 1A.
2 is a side view of a Jeonju root price according to another embodiment of the present invention.
3 to 7 are diagrams illustrating a construction method of a construction using a near price of a pole described with reference to FIG. 1A.

Hereinafter, in order to describe in detail enough that a person having ordinary knowledge in the technical field of the present invention can easily implement the technical idea of the present invention, a most preferred embodiment of the present invention will be described with reference to the accompanying drawings. . First of all, in adding reference numerals to elements of each drawing, it should be noted that the same elements have the same numerals as possible even if they are indicated on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the subject matter of the present invention, a detailed description thereof will be omitted.

1A is an exploded perspective view of a jeonju near price according to an embodiment of the present invention, and FIG. 1B is a side view of a jeonju near price shown in FIG. 1A.

1A and 1B, the Jeonju Geunga 200 is buried in the underground along with the Jeonju 5 during construction, and the Jeonju Geunga 200 firmly supports the part of the Jeonju 5 buried in the ground. .

In this embodiment, the electric pole root 200 may be formed of a concrete material. In addition, in this embodiment, the poles 200 are separated from each other and face each other, so that the through-holes into which the poles 5 are inserted are defined, and the poles inserted inside the poles are tightened It can be implemented as a supporting U-bolt. Hereinafter, a description will be given of the structure of the electric pole 200 according to an embodiment of the present invention.

In this embodiment, the jeonju root 200 includes the first root block 30, the second root block 70, the connecting member 120, the U-bolt 110, and the nuts 130. Include.

A first through-hole 15 into which the electric pole 5 is inserted is defined in the first near-cost block 30, and the first near-cost block 30 has a shape surrounding one surface of the electric pole 5. When the electric pole 5 has a cylindrical shape having a round-shaped surface, the surface defining the first through hole 15 may have a rounded shape to correspond to the round-shaped surface of the electric pole 5 .

A second through hole 75 into which the electric pole 5 is inserted is defined in the second near cost block 70, and the second near cost block 70 has a shape surrounding the other side of the electric pole 5, It faces block 30. Like the first through hole 15, a surface defining the second through hole 75 may have a rounded shape to correspond to the rounded surface of the electric pole 5.

In this embodiment, the first near-value block 30 may include two types of sub-blocks having different widths. In more detail, the first near-value block 30 includes three first sub-blocks 10 and two second sub-blocks 20. In addition, each of the first sub-block 10 and the second sub-block 20 of the first near-value block 30 may have a semi-ring shape around the first through hole 15.

A first sub-block 10 is located on each of the top and bottom sides of the first near-value block 30, and the three first sub-blocks 10 and the two second sub-blocks 30 alternately The first root block 30 is formed by overlapping.

In this embodiment, assuming that the first sub-block 10 has a first width W1 and the second sub-block 20 has a second width W2, the size of the first width W1 is It is larger than the size of the second width W2. Accordingly, as shown in FIG. 1B, a step according to the difference in widths of the first and second sub-blocks 10 and 20 is generated on the side surface of the first near-price block 30, and as a result, the approximation 200 If) is buried in the ground, the area in contact with the soil in the Jeonju root 200 is increased so that the Jeonju root 200 can be more firmly buried in the ground.

In this embodiment, the three first sub-blocks 10 and the two second sub-blocks 20 may have an integrally formed shape. In terms of manufacturing method, after providing the concrete in the frame having the shape of the first rough block 30, the first rough block 30 is cured to cure the concrete provided in the frame to form three first sub blocks 10 and 2 The two second sub-blocks 20 may be collectively formed.

Like the first near-value block 30, the second near-value block 70 includes three first sub-blocks 60 and two second sub-blocks 50. In this embodiment, the first sub-block 60 and the second sub-block 50 of the second near-value block 70 may have a semi-ring shape around the second through hole 75.

Assuming that the first sub-block 60 has a third width W3 and the second sub-block 50 has a fourth width W4, in this embodiment, the third width W3 is a fourth width. Greater than (W4). In addition, a first sub-block 60 is located at each of the uppermost and lowermost sides of the second near-valued block 70, and the three first sub-blocks 60 and the two second sub-blocks 50 alternate with each other. The second root block 70 is formed by overlapping with each other.

Therefore, when the first near-price block 30 and the second near-price block 70 are disposed such that the first through-hole 15 is adjacent to the second through-hole 75, the first 1 sub-block 10 faces the first sub-block 60 of the second near-value block 70, and the second sub-block 20 of the second near-value block 70 is It faces the second sub-block 50.

In this embodiment, as in the case of the first near-value block 30, the three first sub-blocks 60 and the two second sub-blocks 50 of the second near-value block 70 are collectively formed. It may have an integrally formed shape.

The connecting member 120 is interposed between the first near-price block 30 and the second near-price block 70, and the connection member 120 is coupled to any one of the sub-blocks of the first near-price block 30. . More specifically, in this embodiment, the connection member 120 may be coupled to the second sub-block 20 of the first near-price block 30.

In this embodiment, the connecting member 120 includes a bent portion 121 bent to correspond to the semi-circular outer surface of the second sub-block 20 and connection portions 125 extending from the bent portion 121 . One of the connection parts 125 extends from one side of the bent part 121, and the other of the connection parts 125 extends from the other side of the bend part 121.

In addition, fastening holes 126 are formed in a one-to-one correspondence with the connection parts 125. Each of the fastening holes 126 may have a shape passing through a corresponding connection part.

In this embodiment, the connection member 120 having the above-described structure may be coupled to the second sub-block 20 so that the bent portion 121 surrounds the second sub-block 20. However, the present invention is not limited to the number and position of the connecting member 120. For example, in another embodiment, two or more connecting members 120 may be provided, one of the two connecting members 120 may be provided in the second sub-block 20, and two connecting members The other one of 120 may be provided to the first subblock 10.

The U-bolt 110 is a bolt having a'U'-shaped shape, and the u-bolt 110 is the second sub-block 20 of the first near-price block 30 and the second near-price block 70 facing it. It is provided to surround the second subblock 50. In addition, the portion bent in a'U' shape of the U-bolt 110 is in contact with the second sub-block 50 of the second near cost block 70, and both ends of the U-bolt 110 are fastening holes 126 It may be fastened to the fastening holes 126 in a one-to-one correspondence.

In this embodiment, one U-bolt 110 is provided. However, as described above, when the connecting member 120 is provided in plural, the u-bolts 110 may be provided in plural as many as the number provided by the connecting members 120, and the plurality of u-bolts 110 may be It may be fastened to the plurality of connecting members 120 in a one-to-one correspondence with the connecting member 120 of.

The nuts 130 are provided in a one-to-one correspondence with both ends of the U-bolt 110 penetrating through the fastening holes 126. Nuts 130 are coupled with threads formed on the outer surfaces of both ends of the U-bolt 110.

Therefore, when the nuts 130 fastened with the U-bolt 110 are tightened while the electric pole 5 is accommodated in the first through hole 15 and the second through hole 75, the U-bolt 110 And the second sub-block 20 of the first near block 30 and the second sub block 50 of the second near block 70 by the fastening force of the nuts 130 to the first and second through holes. It can firmly support the electric pole (5) inserted in (15,75).

As in this embodiment described above, the electric pole 200 accommodates the electric pole 5 and the first and second root blocks 30 and 70 separated from each other, and the u-bolt 110 and nuts for tightening them ( 130), it is possible to support the electric pole 5 with a uniform force in the 360-degree direction around the electric pole 5 by using the pole 200. Therefore, even if the weight or height of the pole 5 is increased, a more stable construction method for the pole 5 can be performed by using the pole price 200.

2 is a side view of a Jeonju root price 201 according to another embodiment of the present invention. In describing FIG. 2, reference numerals are used for the aforementioned components, and redundant descriptions of the components are omitted.

Referring to FIG. 2, the electric pole 201 includes two U-bolts 110 and two connecting members 120.

As described above, the electric pole of the embodiment shown in Fig. 1b (200 in Fig. 1b) is a pair consisting of one U-bolt (110 in Fig. 1b) and one connecting member (120 in Fig. 1b) fastened thereto. Tighten the two sub-blocks facing each other using the fastening structure of.

On the other hand, the pole head 201 of the embodiment shown in FIG. 2 uses two pairs of fastening structures consisting of two U-bolts 110 and two connecting members 120 fastened in a one-to-one correspondence with them. Thus, two sub-blocks facing each other are tightened.

In other words, in this embodiment, the fastening structure of the U-bolt 110, the connecting member 120, and the nut 130 is reinforced, and as a result, the strength of supporting the electric pole inserted therein Can be further strengthened.

Hereinafter, a method of performing the construction method for the electric pole 5 by using the electric pole 200 having the above-described structure will be described as follows.

3 to 8 are diagrams illustrating a construction method of a construction using a near price of a pole described with reference to FIG. 1A. Meanwhile, in describing FIGS. 3 to 8, reference numerals are used for the aforementioned constituent elements, and redundant descriptions of the constituent elements are omitted.

Referring to FIG. 3, in this embodiment, the construction of the building can be performed using the extended auger crane 2. The expandable auger crane 2 is provided with an expandable excavation unit 1 capable of expanding and contracting in the horizontal direction, so that pits having different widths can be continuously formed in the underground 25.

First, the expandable excavation unit 1 is expanded to the maximum in the horizontal direction. After that, the expansion type excavation unit 1 is driven to perform the primary excavation operation to form the first pit 3 in the underground 25.

In this embodiment, the diameter of the first pit 3 may be about 0.8 m, and the depth of the first pit 3 may be about 0.7 m. However, the size of the first pit 3 may be different depending on the size, height or use of the electric pole.

Referring to FIG. 4, after completing the first stage excavation process of excavating the first pit 3, the expansion type excavation unit 1 is reduced in the horizontal direction, and the expansion type auger crane 2 is used to reach the depth of the pole The second pit 4 is formed in the underground 25 by performing the secondary excavation work. In this embodiment, the movement of the expandable excavation unit 1 occurs between the first and second excavation operations, but proceeds without the movement of the expandable auger crane 2, so substantially the first and second excavation operations Can be performed continuously.

In this embodiment, the width of the second pit 4 may be smaller than the width of the first pit 3 by the reduced length of the excavation unit 1. In addition, the first pit 3 is located on the upper side of the second pit 4 and is formed with different widths of the first pit 3 and the second pit 4, so that the first and second pits in cross section (3,4) can be formed in a stepped shape like a staircase.

5, the electric pole 5 is erected in the second pit 4 using equipment such as a crane. After that, while the electric pole 5 is erected inside the second pit 4, the second pit 4 is filled with soil or concrete, and the erected electric pole 5 is fixed. As a result, the work of primarily supporting the electric pole 5 on the underground 25 is completed.

Referring to FIG. 6, the first pit 3 is installed with a pole 200 described with reference to FIGS. 1A and 1B.

Referring again to Figure 1a, the method of installing the Jeonju Geunga 200 will be described in more detail as follows. As described above. Since the first and second rough blocks 30 and 70 of the Jeonju root 200 are separated from each other, a crane is used to move the first and second rough blocks 30 to the inside of the first pit 3. 2 The near-price block 70 is sequentially moved, but the first through-hole 15 and the second through-hole 75 are adjacent to each other, so that the first and second near-price blocks 70 face each other. To place.

After arranging the first near cost block 30 and the second near cost block 70 inside the first pit 3, the connecting member 120 is placed in the second subblock 20 of the first near cost block 30 Bind to After that, both ends of the U-bolt 110 are inserted into the fastening holes 126 formed in the connecting portions 125 of the connecting member 120. Thereafter, the nuts 130 are fastened with the U-bolt 110 passing through the fastening holes 126 and then the nuts 130 are tightened.

Therefore, by the fastening force between each of the nuts 130 and the u-bolt 110, the first and second rough blocks 30 and 70 are firmly coupled to each other, and at the same time, the first through hole 15 ) And the electric pole 5 accommodated in the inside of the second through hole 75 are tightened by the first and second near-cost blocks 30 and 70. As a result, the electric pole 5 can be firmly supported by the first and second close price blocks 30 and 70 of the electric pole close price 200.

Referring to FIG. 7, after firmly supporting the electric pole 5 buried in the underground 25 using the electric pole 200, the first pit 3 is filled with soil or concrete. As a result, the work of supporting the electric pole 5 in the underground 25 is ended, and the construction method of the construction of the electric pole 5 using the electric pole 200 can be completed.

Although the preferred embodiments according to the present invention have been described above, various modifications are possible, and those of ordinary skill in the art can make various modifications and modifications without departing from the scope of the claims of the present invention. It is understood that it can be done.

5: Jeonju 10: 1st subblock
20: second subblock 30: first near cost block
70: second near cost block 15: first through hole
75: second through hole 110: U-bolt
120: connecting member 121: bending portion
200: Jeonju Geunga

Claims (10)

A first near-cost block having a first through hole for receiving an electric pole and having a shape surrounding one surface of the electric pole;
A second near cost block having a second through hole adjacent to the first through hole to receive the electric pole, and having a shape surrounding the other surface of the electric pole and facing the first near cost block; And
Including; a U-bolt and a connecting member that is coupled to the outer surface of the first near-value block and the outer surface of the second near-value block to couple the first near-price block and the second near-price block, and
The first and second rough blocks are made of concrete,
A first sub-block having a first width, each of the first and second near-value blocks; And a second sub-block having a second width less than the first width and overlapping the first sub-block;
In each of the first and second near blocks, the first sub-block and the second sub-block are alternately overlapped in a plurality to form a step difference between the first sub-block and the second sub-block,
And the first sub-blocks are disposed at the uppermost and lowermost sides of the first and second nearing blocks. According to claim 1, When viewed in a cross-section, the first and second near-value blocks have a structure that is symmetrical to each other. delete According to claim 1, wherein each of the first sub-block and the second sub-block has a semi-ring shape, characterized in that the electric pole root. The method of claim 1, wherein each of the first sub-block and the second sub-block of the first near-value block has a semi-circular shape around the first through hole, and the first of the second near-value block Each of the sub-block and the second sub-block has a semi-ring shape around the second through hole. delete delete According to claim 1, wherein the first sub-block and the second sub-block is a pole, characterized in that the shape is formed integrally. The method of claim 1,
Further comprising a nut fastened with the U-bolt,
The U-bolt tightens the second sub-block of the first near-value block to the second sub-block of the second near-value block opposite thereto, and the connecting member has a fastening hole through which the U-bolt passes, and the nut Jeonju root, characterized in that fastened with the U-bolt penetrating through the fastening hole. The method of claim 9, wherein the connecting member,
A bending unit bent to surround the second subblock; And
A connection part extending from each of both ends of the bending part,
Jeonju root, characterized in that the fastening hole is defined in the connection part.

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