KR101593658B1 - Concret-pole - Google Patents

Abstract

Disclosed in the present invention is a construction method of a concrete pole, which can adjust the height of a concrete pole and tightly install the concrete pole by installing a foundation block with an anchor bolt for height adjustment buried in an excavated ground bed, fixing a concrete pole to the anchor bolt for height adjustment with a certain space from the foundation block, and filling a separation space between a base plate and the foundation block with mortar.

Description

Concrete pole {CONCRET-POLE}

The present invention relates to a concrete pole, and more particularly, to a concrete pole having a base block in which an anchor bolt for height adjustment is installed in a grounded terraced floor, and a concrete pole is fixed to the anchor bolt for height adjustment, The present invention relates to a concrete pole capable of adjusting the height of a concrete pole and being more firmly installed by allowing mortar to fill a space between the base plate and the foundation block.

Generally, a concrete pole is used when a street lamp, a park, and a security light are installed.

Conventional concrete poles are installed by fixing a foundation block to a grounded terraced ground, fixing the concrete pole main body to an upper part thereof, and then filling mortar in the ground.

However, when the mortar filled in the ground does not adhere well to the foundation block, the contact between the mortar and the foundation block occurs, and the concrete located on the contact surface between the mortar and the foundation block The base plate of the pawl is also not firmly fixed and the concrete pole body can not be installed firmly.

In addition, since the height of the concrete pole can not be adjusted, the position of the light located at the upper end of the concrete pole is slightly different depending on the depth of the terra cotta.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems described above, and it is an object of the present invention to provide a concrete pole capable of firmly constructing a concrete pole by forming a spacing space between the base plate and the foundation block and filling the spacing space with mortar. .

Another object of the present invention is to provide a height adjustable concrete pole.

Another object of the present invention is to provide a concrete pole capable of easily coupling a concrete pole to an anchor bolt.

The object of the present invention is to provide an anchor bolt that is installed in an installation space inside a ground and in which a plurality of height-adjusting anchor bolts are embedded and fixed so that a screw part protrudes upward; A lower nut fastened to the threaded portion of the height adjusting anchor bolt so as to be spaced apart from the base block; A base plate inserted into the height adjusting anchor bolt is fixed to a lower end of the base plate and a space is formed between the base block and the base plate when the base plate is inserted into the height adjusting anchor bolt, And an upper nut inserted in the height adjusting anchor bolt and cooperating with the lower nut to fix the base plate. The mortar injected into the installation space is filled in the installation space including the space between the base block and the base plate The present invention relates to a concrete pail.

The concrete pole according to the present invention has the effect of forming a spacing space between the base plate and the foundation block and filling the spacing space with the mortar so that the concrete pole can be firmly installed. Further, the height of the concrete pole can be adjusted, and the concrete pole can be easily coupled to the anchor bolt.

1 is a cross-sectional view of a concrete pole according to the present invention,
FIG. 2 is a cross-sectional view of the concrete pillar according to the present invention,
3 is an exploded perspective view of a preferred embodiment of a concrete pole according to the present invention,
4 and 5 are cross-sectional views of another preferred embodiment of a concrete pole according to the present invention.

Hereinafter, a concrete pole according to the present invention will be described in detail with reference to the accompanying drawings.

The concrete pole according to the present invention is constructed including a foundation block 100, a lower nut 300, a main body 400, and an upper nut 500.

The base block 100 is installed in the installation space inside the ground and the plurality of height-control anchor bolts 200 are embedded and fixed in the base block 100 so that the screw portion 210 protrudes upward. That is, the base block 100 is a block for supporting the main body 400 to be described later, which is seated on the ground inside the ground, and the anchor bolts 200 for height adjustment are embedded, (210) is embedded so as to protrude from the top of the foundation block (100).

The lower nut 300 is fastened to the threaded portion 100 of the height-adjusting anchor bolt 200 and is fastened to be spaced apart from the base block 100.

The main body 400 is a hollow concrete pillar, and the base plate 410 is fixed to a lower end thereof. Here, the base plate 410 includes a plate portion 420, which is hermetically sealed at an open lower end of the body and extends outside the lower end of the body; And a fixing ring portion 430 protruding upward from the plate portion 420 and fixed to the outer surface of the lower end of the main body. In addition, the plate portion 420 is formed with an insertion hole 421 to be inserted into the height-adjusting anchor.

Further, a reinforcing bar 440 is inserted into the wall of the main body. The reinforcing bars 440 are embedded at regular intervals along the circumferential direction of the wall to improve the shear strength of the lower end of the body 400 and are installed at a predetermined height from the lower end of the body.

The body 40 having such a structure is inserted into the height-adjusting anchor bolts 200 through the insertion holes 421 of the base plate and is then supported by the lower nuts 300. Then, a spacing space is formed between the base block 100 and the base place 410.

The upper nut 500 is inserted into the height adjusting anchor bolts 200 and cooperates with the lower nut 300 to fix the base plate 410 to fix the body in the installation space.

When the main body is constructed as described above, the mortar 600 is injected into the installation space. Then, the mortar 600 injected into the installation space is filled in the installation space including the spacing space between the base block 100 and the base plate 410, thereby completing the construction.

In the concrete pole according to the present invention thus constructed, a spacing space is formed between the base plate 410 and the foundation block 100, and the mortar 600 is filled in the spacing space, so that the concrete pole can be firmly fixed. That is, when the base plate of the concrete pole is directly fixed to the foundation block, there is a problem that the concrete pole can not be firmly fixed due to a phenomenon that the mortar and the foundation block contact surface float. However, The problem as in the prior art can be solved because it is embedded in the mortar.

Furthermore, the present invention has the advantage that the height of the concrete pole can be adjusted. That is, when the position of the lower nut 300 is lowered as shown in FIG. 1, the height of the concrete pole is lowered. When the position of the lower nut 300 is tightened as shown in FIG. 2, the height of the concrete pole is increased. Therefore, even if the concrete pillar installed at regular intervals is different from the ground state or the depth of trench, the height of a plurality of concrete poles can be adjusted, so that the position of the light located at the top of the concrete pillar can be installed at a constant height .

FIG. 3 is a view showing another embodiment of the concrete pole according to the present invention. The concrete pole according to the present invention further includes an interval adjusting plate 700.

The spacing adjusting plate may be formed such that an interval between the exposed threaded portions 210 of the height adjusting anchor bolts 200 is adjusted in accordance with the interval of the insertion holes 421 of the base plate 410 between the lower nut 300 and the base plate 410 Specifically, a binding hole 710 is formed at a position corresponding to the insertion hole 421 of the base plate inserted into the anchor bolt 200 for height adjustment at a corner portion, and a through hole (not shown) 720 are formed.

That is, when the exposed threaded portion 210 of the height adjusting anchor bolt 200 is bent, the position of the height adjusting anchor bolt 200 is different from the position of the insertion hole 421 of the base plate, So that it is not easy to join the bolt 200.

Therefore, in the present invention, the lower nut 300 is fastened to the respective anchor bolts 200 at the same height, and then the anchor bolts 200 are inserted into the fastening holes 710 of the gap adjusting plate 700, ) To the lower nut (300). Since the binding holes 710 of the gap adjusting plate are formed at positions corresponding to the insertion holes 421 of the base plate, the position of the anchor bolts 200 inserted into the binding holes 710 of the gap adjusting plate is adjusted So that the main body can be easily coupled to the anchor bolt.

4 and 5 illustrate still another embodiment of the concrete pole according to the present invention. The concrete pole according to the present invention further includes a support spring 800.

The support spring 800 is configured such that one end thereof is supported by the base block 100 and the other end thereof is supported by the plate portion 420 of the base plate.

The support spring 800 supports the base plate 410 to support the base plate 410. That is, in the present invention, a substantial weight of the body is supported only by the lower nut 300. The support spring 800 supports the body in cooperation with the lower nut 300 until the filled mortar is cured, As well.

Further, the present invention discloses the fixing structure of the support spring so that the support spring 800 does not flow until the main body 400 presses the support spring 800. [

4, a guide hole 730 is formed in a side surface of the gap regulating plate 700, and a press guide rod 900 is inserted and guided into the guide hole 730. As shown in FIG. At this time, an insertion bar 910 inserted between the support springs 800 is inserted into the inner end of the pressing guide bar 900, and the insertion bar 910 is bent at the lower end of the insertion bar 910 to press the outer side of the support spring 800 A pressure bar 920 is formed. A thread 930 is formed at the outer end of the pressing guide bar 900 and a fixing bolt 930 is coupled to the thread 930. A pressing spring 950 is inserted between the outer surface of the pressing bar 920 and the inner surface of the gap adjusting plate 700 so as to be inserted into the pressing guide bar 900.

According to this embodiment, when the fixing bolt 940 is loosened, the pressing bar 900 is inserted into the support spring 800, the insertion bar 910 is inserted into the support spring 800, Thereby pressing the outer side of the base plate 800. At this time, the insertion spring 910 and the pressing bar 920 firmly support the support spring 800 in a state where one end of the pressing spring 950 is supported on the inner surface of the interval adjusting plate 700.

When the support spring 800 is supported by the insertion bar 910 and the pressing bar 920, the support spring 800 can be firmly seated on the base block 100. In this state, So that the support spring can be stably pressed down.

5, the projecting screw 421 is fixed to the bottom surface of the plated portion 420, and the uppermost supporting spring piece of the support spring 800 is provided with an inlet hole 810 Is formed. Therefore, when the projecting screw 421 is inserted into the inlet hole 810 and then the fixing nut 820 is fastened to the projecting screw 421, the support spring 800 is fixed to the bottom of the plate portion 420. Then, when the main body descends, the support spring 800 is seated on the base block 100, so that the main body can stably press the support spring.

100: base block 200: anchor bolt for height adjustment
300: Lower nut 400: Concrete pole
500: Upper nut 600: Mortar
700: space adjusting plate 800: supporting spring

Claims (6)

A base block installed in the installation space inside the ground, the base block having a plurality of height adjustment anchor bolts embedded therein so as to protrude upward; A lower nut fastened to the threaded portion of the height adjusting anchor bolt so as to be spaced apart from the base block; A base plate inserted into the height adjusting anchor bolt is fixed to a lower end of the base plate and a space is formed between the base block and the base plate when the base plate is inserted into the height adjusting anchor bolt, And an upper nut inserted in the height adjusting anchor bolt and cooperating with the lower nut to fix the base plate. The mortar injected into the installation space is filled in the installation space including the space between the base block and the base plate , ≪ / RTI >
The base plate includes a plate portion which is hermetically sealed at an open lower end of the body and extends to the outside of the lower end of the body; And a fixing ring portion protruding upward from the plate portion to be fixed to the outer surface of the lower end of the main body, wherein the plate portion is formed with an insertion hole to be inserted into the height adjusting anchor bolt, Lt; / RTI &
An interval adjusting plate is provided between the lower nut and the base plate to adjust the interval of the exposed screw portions of the height adjusting anchor bolts to match the intervals of the insertion holes of the base plate. The interval adjusting plate is inserted into the anchor bolts for height adjustment A binding hole is formed at a position corresponding to the insertion hole of the base plate, a through hole is formed at a central portion thereof,
Further comprising a support spring having one end supported on the base block and the other end supported on the plate portion of the base plate,
A guide bar is formed in a side surface of the gap adjusting plate, and a guide bar is inserted and guided in the guide bar, an insertion bar inserted into the support spring at an inner end of the guide bar, And a fixing nut is coupled to the screw thread. Between the outer surface of the pressing bar and the inner surface of the gap adjusting plate, a pressing spring is inserted into the pressing guide rod, Characterized in that the reinforcing member
delete delete delete delete The method according to claim 1,
Wherein a projecting screw is fixed to a bottom surface of the flat portion and an upper end supporting spring piece of the support spring is provided with a lead-in hole so that the projecting screw is inserted into the lead-in hole and then the fixing nut is fastened to the lead screw.

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