KR102561999B1 - pole construction method - Google Patents

Abstract

The present invention relates to a new column construction method capable of effectively constructing a column at a location where a sidewalk block is installed.
According to the pillar construction method according to the present invention, after removing the block 4 and sand 3 of the sidewalk block, the support bar 10 provided at the bottom of the pillar 1 is placed, and the mortar 5 is applied. By arranging the block 4 kicked out after pouring back to its original position, the lower end of the column 1 is firmly fixed by the mortar 5, and the construction time is very easy.

Description

Pole construction method {pole construction method}

The present invention relates to a new column construction method capable of effectively constructing a column at a location where a sidewalk block is installed.

In general, there are many cases where the bicycle storage is installed in a location where a sidewalk block is installed.

By the way, as shown in FIG. 1, the sidewalk block is constructed by laying sand 3 on the ground 2 to an appropriate thickness and placing a plurality of blocks 4 on top of it so that the side surfaces are in close contact with each other.

Therefore, in order to install the pillar (1) of the bicycle storage on the sidewalk block, after removing the block (4) and the sand (3) of the sidewalk block, the pillar (1) is embedded in the ground (2) and fixed, and again Since the sand 3 and the block 4 have to be placed, the work is very cumbersome and time consuming.

Therefore, there is a need for a new method capable of solving these problems.

Public utility model No. 20-2010-0000441,

The present invention is to solve the above problems, and an object of the present invention is to provide a new pillar construction method capable of effectively constructing a pillar 1 at a location where a sidewalk block is installed.

The present invention for achieving the above object is to construct a pillar 1 at a location where a sidewalk block is installed, and a support bar 10 extending in the front and rear direction is provided at the lower end of the pillar 1, and the The first step of removing the block 4 of the sidewalk block and the sand 3 to an appropriate depth, the second step of arranging the support bar 10 to be placed on the sand 3, and the A third step of pouring mortar (5) on the circumference, and a fourth step of processing the block (4) removed in the first step so as not to interfere with the column (1) and then placing it back in its original position. A column construction method characterized in that is provided.

According to another feature of the present invention, it is composed of a metal plate material extending in the front and rear direction and further includes a lower support piece 20 rotatably coupled to the lower side of the support bar 10 in the lateral direction, the lower support piece (20) is configured to have a lateral width narrower than the width of the support bar 10, and a rotational shaft 21 extending upward from the upper surface is coupled to pass through the support bar 10 in the vertical direction, the rotational shaft A bolt head 22 is provided at the upper end of the 21, and after disposing the lower support in the second step, when the wrench 23 is coupled to the rotating shaft 21 and rotated, the lower support piece 20 moves to the side. There is provided a column construction method characterized in that it is rotated in the direction to support the support bar 10 by digging into the surrounding sand 3.

According to another feature of the present invention, the support bar 10 uses a circular tube extending in the front and rear direction, and the exhaust pipe 31 coupled to penetrate the upper surface of the central portion of the support bar 10 in the vertical direction, It further includes a pair of piston members 32 coupled to the front and rear ends of the support bar 10 airtightly and slidably, and after pouring the mortar 5 in the third step, the exhaust pipe 31 is exhausted. When the air inside the support bar 10 is discharged by connecting the pump 33, the piston member 32 is sucked inward and the mortar 5 is sucked into the support bar 10. A construction method is provided.

According to the pillar construction method according to the present invention, after removing the block 4 and sand 3 of the sidewalk block, the support bar 10 provided at the bottom of the pillar 1 is placed, and the mortar 5 is applied. By arranging the block 4 kicked off after pouring back to its original position, the lower end of the column 1 is firmly fixed by the mortar 5, and the construction time is very easy.

1 is a side cross-sectional view showing a general sidewalk block;
Figure 2 is a side view showing a pillar used in the pillar construction method according to the present invention;
3 to 7 are reference views showing the pillar construction method according to the present invention,
8 is a side cross-sectional view showing a pillar used in a second embodiment of a pillar construction method according to the present invention;
9 is a plan view of a column used in a second embodiment of a column construction method according to the present invention;
10 and 11 are reference views showing a second embodiment of the pillar construction method according to the present invention;
12 is a side cross-sectional view showing a pillar used in a third embodiment of a pillar construction method according to the present invention;
13 and 14 are reference views showing a third embodiment of the pillar construction method according to the present invention.

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

2 to 7 show a pillar construction method according to the present invention, for constructing a pillar 1 at a location where a sidewalk block is installed.

According to this, the sidewalk block is constructed by laying sand 3 on the ground 2 to an appropriate thickness and arranging a plurality of blocks 4 on top of it so that the sides are in close contact with each other.

And, as shown in Figure 2, the lower end of the pillar 1 is provided with a support bar 10 extending in the front-rear direction.

The support bar 10 uses a circular tubular body of a metal material extending in the forward and backward directions, and is welded to the lower end of the pillar 1.

As shown in FIG. 3, the pillar 1 configured as described above includes the first step of removing the block 4 and sand 3 of the sidewalk block to an appropriate depth, and as shown in FIG. 4, the sand The second step of arranging the support bar 10 to be raised in (3), the third step of pouring mortar 5 on the circumference of the support bar 10, as shown in FIG. 5, and FIG. 6 And as shown in Figure 7, the sidewalk block is installed through the fourth step of processing the block 4 removed in the first step so as not to interfere with the pillar 1 and then placing it back in its original position. is constructed

In the first step, the sand 3 is removed to a depth to which the support bar 10 is buried.

In the second step, the support bar 10 is placed horizontally at the position where the sand 3 is dug out.

In the third step, mortar 5 is poured in an amount sufficient to cover the upper surface of the support bar 10.

In the fourth step, processing the block 4 means that the block 4 is cut to an appropriate length or a part of the circumferential surface of the block 4 is cut away so as not to interfere with the block 4 and the pillar 1. is to avoid

According to such a column construction method, after removing the block 4 and sand 3 of the sidewalk block, the support bar 10 provided at the bottom of the column 1 is placed, and the mortar 5 is poured. By placing the removed block 4 back in its original position, the lower end of the column 1 is firmly fixed by the mortar 5, and the construction time is very easy.

8 to 11 show another embodiment according to the present invention, on the lower side of the support bar 10, a lower support piece 20 made of a metal plate material extending in the front and rear directions is rotatably coupled in the lateral direction. .

The lower support piece 20 is configured in a rectangular plate shape with a length in the front and rear direction shorter than that of the support bar 10 and a width in the lateral direction narrower than that of the support bar 10, extending upward from the upper surface. A rotation shaft 21 is coupled to pass through the support bar 10 in a vertical direction, and a bolt head 22 is provided at an upper end of the rotation shaft 21 .

According to such a column construction method, as shown in FIG. 10, after disposing the support bar 10 in the second step, as shown in FIG. 11, the bolt head 22 of the rotation shaft 21 When the wrench 23 is coupled to and rotated, the lower support piece 20 is rotated in the lateral direction while digging into and supporting the surrounding sand 3, that is, the sand 3 between the ground 2 and the block 4 Support the bar (10).

Therefore, there is an advantage in preventing the support bar 10, which is placed on the sand 3 by the load of the pillar 1 in the second and third steps, from digging into the sand 3 and descending.

12 to 14 show another embodiment according to the present invention, the exhaust pipe 31 coupled to penetrate the upper surface of the central portion of the support bar 10 in the vertical direction, and the front and rear ends of the support bar 10 It further includes a pair of piston members 32 that are slidably coupled to each other in an airtight manner.

The lower end of the exhaust pipe 31 extends to the inner central portion of the support bar 10 .

The piston member 32 is made of a synthetic resin material and coupled to both inner ends of the support bar 10.

According to this column construction method, as shown in FIG. 13, after pouring the mortar 5 in the third step, as shown in FIG. 14, the exhaust pump 33 is installed in the exhaust pipe 31. When the air inside the support bar 10 is discharged, the mortar 5 is sucked into the support bar 10 while the piston member 32 is sucked inward.

Therefore, when the mortar 5 is sufficiently introduced into the support bar 10 and the mortar 5 is hardened, the support bar 10 is firmly fixed to the mortar 5.

In particular, when the air inside the support bar 10 is discharged through the exhaust pipe 31, the piston member 32 moves inside so that the mortar 5 is sucked into the support bar 10, When the piston member 32 slides into the support bar 10 until it comes into contact with the exhaust pipe 31, it is fixed so as not to flow anymore, preventing the mortar 5 from being sucked into the exhaust pipe 31.

Therefore, there is an advantage in preventing the mortar 5 from flowing into the exhaust pump 33 through the exhaust pipe 31 and causing a failure of the exhaust pump 33 .

1. Pillar 10. Support bar

Claims (3)

For constructing the pillar (1) at the location where the sidewalk block is installed,
A support bar 10 extending in the front-back direction is provided at the lower end of the pillar 1,
A first step of removing the block 4 and sand 3 of the sidewalk block to an appropriate depth;
A second step of placing the support bar 10 on the sand 3 so that it is raised;
A third step of pouring mortar 5 on the circumference of the support bar 10;
A fourth step of processing the block 4 removed in the first step so as not to interfere with the pillar 1 and then placing it back in its original position,
The support bar 10 uses a circular tubular body extending in the forward and backward directions,
An exhaust pipe 31 coupled to pass through the upper surface of the central portion of the support bar 10 in the vertical direction;
It further includes a pair of piston members 32 airtightly and slidably coupled to the front and rear ends of the support bar 10,
After pouring the mortar 5 in the third step, when the air inside the support bar 10 is discharged by connecting the exhaust pump 33 to the exhaust pipe 31, the piston member 32 is adsorbed inward. Column construction method, characterized in that the mortar (5) is sucked into the support bar (10) while being.
According to claim 1,
It is composed of a metal plate material extending in the front and rear direction and further includes a lower support piece 20 rotatably coupled to the lower side of the support bar 10 in the lateral direction,
The lower support piece 20 is configured to have a narrower lateral width than the width of the support bar 10, and a rotational shaft 21 extending upward from the upper surface is coupled so as to pass through the support bar 10 in the vertical direction. And, the upper end of the rotation shaft 21 is provided with a bolt head 22,
After disposing the lower support in the second step, when the wrench 23 is coupled to the rotating shaft 21 and rotated, the lower support piece 20 rotates laterally and digs into the surrounding sand 3 to support the support bar. Column construction method characterized in that to support (10).
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