KR101411373B1 - Assembling Stone Column And Manufacturing Method Thereof - Google Patents

Abstract

The present invention relates to a pipe structure comprising a pipe core part (240) formed in a vertically long direction, a natural stone block (220) having a pipe core part (240) formed inside and a plurality of columns arranged in a vertical direction to form a column shape, And a bonding portion (230) for bonding between the blocks (220).
According to the present invention, since the entire stone pillar is not required to be used as a natural stone, the material cost is reduced, and the effect of easy transportation and installation can be obtained.

Description

[0001] The present invention relates to an assembled stone column and manufacturing method thereof,

The present invention relates to a prefabricated prism and a manufacturing method thereof.

There are many cases where natural materials such as stone pillar are used in part of the building where the natural beauty is important in modern architecture.

However, since the stone pillar used in the conventional building forms a stone pillar as a whole, it takes a lot of cost to prepare natural stone, and it takes a lot of cost and labor to process and install heavy natural stone do.

Instead of using natural stones, bricks or concrete columns have been used, and natural stone tiles have been attached to pillars. However, there is a problem of falling tiles as vibration or time passes.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a prefabricated pillar having low cost, easy transportation and installation, durability even after a long period of vibration, and a method of manufacturing the same.

The present invention includes a pipe core portion 240 formed in a vertically elongated shape,

The natural stone blocks 220 having the pipe core part 240 formed on the inner side thereof and forming a columnar shape by arranging a plurality of the pipe core parts 240 in the vertical direction,

A bonding portion 230 for bonding between the natural stone blocks 220,

The present invention provides a prefabricated stone pillar comprising:

The pipe core member 240 includes a pipe body 242 having a pipe shape and an iron core member 244 radially formed around the pipe body 242. The iron core member 244 and the pipe body 242 (Not shown).

The iron core member 244 is formed in parallel with the pipe body 242 in the longitudinal direction of the pipe body 242 and is connected to the iron core member 242 by the connecting member 246 formed at regular intervals in the longitudinal direction of the pipe body 242, (244) may be spaced apart from the pipe body (242) by a predetermined space.

The pipe core part 240 may protrude outward from the pipe body 242 and a lower part of the pipe core part 240 where the latching part 248 is formed may be formed in the base member part 240. [ (Not shown).

A plurality of iron core members 244 are arranged on the outer circumferential surface of the hollow pipe body 242 in the longitudinal direction of the hollow pipe body 242 and then the iron core member 244 is welded to the hollow pipe body 242 The hollow pipe body 242 to which the iron core member 244 is attached may be installed in the natural stone block 220 and then concrete may be installed in the natural stone block 220. [

A plurality of iron core members 244 may be bundled into the natural stone block 220 by wire 245, and then concrete may be installed.

The pipe body 242 includes a pipe body 242 and an iron core member 244 radially formed around the pipe body 242. The iron core body 244 and the pipe body 242 are connected to each other And a connecting member (246)

A process of installing a natural stone block in the pipe core part and

And pouring concrete into the natural stone block. The present invention also provides a method of manufacturing a prefabricated stone pillar.

In the process of installing the natural stone block, the first natural stone block 221 is moved from the upper part to the lower part of the pipe core part 240 and moved until it is stopped by the engaging part 248, The adhesive portion 230 can be formed.

Forming a body base post,

After forming a base member 300 having a shape of a cube formed of concrete and having a space formed therein and having open top and bottom surfaces, the base base column 250 is drawn into the base member 300 And a process of forming and joining a base member, which is a process of coupling through concrete pouring.

According to the present invention, it is possible to form a natural stone column while minimizing the use of natural stone.

The inner part is formed of a reinforced concrete structure by using a pipe core part formed of iron, an iron core member and concrete, and durability is improved.

Since the pipe body of the pipe core portion is hollow, the weight of the entire column is reduced, and the installation is easy.

Fig. 1 is a perspective view showing completion of a prefabricated pillar of the present invention. Fig.
Fig. 2 is an exploded perspective view showing the prefabricated prism of Fig. 1; Fig.
3 is a schematic view showing the pipe core portion of Fig.
4 is an enlarged view of an upper end portion of the pillar body portion;
5 is a cutaway perspective view showing part of the contents of the present invention.
Fig. 6 is an exploded perspective view in which a wire is installed in Fig. 5; Fig.
5 is a flow chart of manufacturing a prefabricated stone pillar according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Fig. 1 is a perspective view showing completion of a prefabricated pillar of the present invention. Fig.

The prefabricated pillar 100 of the present invention includes a columnar body portion 200 and a base member portion 300 coupled to a lower portion of the columnar body portion 200.

The column body 200 includes a natural stone block 220 formed of a natural stone and a bonding portion 230 for bonding the natural stone blocks 220 together.

Fig. 2 is an exploded perspective view showing the prefabricated pillar of Fig. 1, Fig. 3 is a schematic view showing a pipe core part of Fig. 2, and Fig. 4 is an enlarged schematic view of an upper end of the pillar body part.

The column body portion 200 includes a pipe core portion 240 formed in a vertical direction and a natural stone block 220 having a cylindrical hole 223 in which the pipe core portion 240 is inserted, .

The pipe core member 240 includes a pipe body 242 having a cylindrical pipe member 242 having a long length and an iron core member 244 radially formed around the pipe body 242. The iron core member 244, And a connection member 246 formed by welding to connect the pipe body 242 with the pipe body 242.

The iron core member 244 is formed in parallel with the pipe body 242 in the longitudinal direction of the pipe body 242 and is connected to the iron core member 242 by the connecting member 246 formed at regular intervals in the longitudinal direction of the pipe body 242, (244) are spaced apart from the pipe body (242) by a predetermined space.

Of course, if necessary, the iron core member 244 can be welded to the pipe body 242 and then welded by the connecting member 246.

Since the present invention uses an empty pipe body 242, the weight of the inner space of the pipe body 242 is reduced as compared with the case of a stone having an internal whole stone.

The base member 300 is formed in a shape of a cube formed of concrete. The base member 300 has a space formed therein, and upper and lower surfaces thereof are opened.

The pipe core member 240 is formed with a protrusion 248 protruding from the bottom of the pipe core member 242 at the same height as the height of the base member 300 and the protrusion 248 The bottom portion of the base member 300 is inserted into the inner space of the base member 300.

When the lower portion of the coupling portion 248 of the pipe core portion 240 is installed on the inner side of the base member 300 and the concrete is poured into the base member 300, the lower portion of the coupling portion 248 and the base member 300), the concrete curing time is long.

Accordingly, in the present invention, concrete is placed under the latching portion 248 to form a body base column 250 having a horizontal cross-section that is the same as the horizontal cross-sectional shape of the latching portion 248, (300) to pour the concrete.

The curing time of the concrete placed inside the base member 300 can be reduced.

The natural stone block 220 has an inner space formed in a cylindrical shape having a larger cross section than that of the pipe core portion 240. The cross section of the cylindrical inner space of the natural stone block 220 is a horizontal cross section of the engaging portion 248 It is caught by the latching part 248. [

When the first natural stone block 221 is moved from the upper portion to the lower portion of the pipe core portion 240 without the natural stone block 220 being installed on the outer side of the pipe core portion 240, The first natural stone block 221 is moved by the stopping portion 248 and the adhesive is applied to the upper end of the first natural stone block 221 while the first natural stone block 221 is stopped by the stopping portion 248, ).

When the second natural stone block 222 is moved above the first natural stone block 221, the second natural stone block 222 is seated on the upper surface of the adhesive part 230.

An adhesive 230 is formed on the upper surface of the second natural stone block 222 and the N natural stone blocks 220 are connected to the upper end of the pipe core 240 by repeating this process.

The concrete is injected into the N natural stone blocks 220 to form a concrete layer in the space between the inner surface of the natural stone block 220 and the outer surface of the pipe body 242.

The reason why the adhesive is applied when stacking the natural stone blocks 221 and 222 is to prevent the concrete from being counted when the concrete is laid and to prevent the natural stone blocks 221 and 222 from twisting due to vibration or other reasons To prevent it from losing.

When the natural stone block 220 is installed in such a manner that a concrete layer is formed in a space between the inner surface of the first natural stone block 221 and the outer surface of the pipe body 242 after the first natural stone block 221 is installed, The concrete can be poured into the interior of the natural stone blower.

When the concrete block is formed in the space between the inner surface of the natural stone block 220 and the outer surface of the pipe body 242 after the natural stone block 220 is formed up to the upper end of the column body, A pipe core portion 240, a concrete layer and a natural stone block 220 are formed from the center to the outside.

At this time, an upper surface of the pipe core member 240 is welded, and an anchor 160 capable of being screwed is formed by a weld 140 formed by welding.

As described above, according to the present invention, it is possible to form a natural stone column while minimizing the use of natural stone.

The inner portion of the pipe core member 240, the iron core member 244, and the concrete formed of iron are formed into a reinforced concrete structure to improve durability.

Since the pipe body 242 of the pipe core member 240 is hollow, the weight of the entire column is reduced, and the installation is easy.

FIG. 5 is an exploded perspective view showing a part of the present invention, and FIG. 6 is an incision oblique view showing a wire in FIG.

5, a plurality of iron core members 244 are arranged on the outer circumferential surface of the hollow pipe body 242 in the longitudinal direction of the hollow pipe body 242, The hollow pipe body 242 with the iron core member 244 is installed inside the natural stone block 220 and then the natural stone block 220 ). ≪ / RTI >

As shown in FIG. 6, the present invention can also be embodied by a method in which a plurality of iron core members 244 are bundled into a plurality of iron core members 245 in the natural stone block 220, and then concrete is laid.

The present invention also provides a method of manufacturing the prefabricated prism.

FIG. 7 is a flow chart for manufacturing a prefabricated stone pillar according to the present invention.

The present invention includes a second step S200 of forming a pipe core part through a first step S100 and a step of installing a natural stone block in a pipe core part proceeding after the second step S200 (S400) and a fourth step (S400), which are the concrete casting processes in which the concrete is laid inside the natural stone block after the third step (S300) and the third step (S300) A sixth step S600 and a sixth step S600 of forming and joining the base member part after the fifth step S500 and the fifth step S500, A seventh step S700, and an eighth step S800, which is an ending process.

The process of forming the pipe core part of the second process includes a pipe body 242 having a long cylindrical pipe-like shape, an iron core 244 formed radially around the pipe body 242, And a connection member 246 formed by welding to connect the pipe body 244 and the pipe body 242 to each other.

In the natural stone block installation process in the third step S300, the first natural stone block 221 is moved from the upper part to the lower part of the pipe core part 240 and moved until it is stopped by the locking part 248, The first natural stone block 221 is coated with an adhesive to form the adhesive portion 230 while the first natural stone block 221 is stopped by the engaging portion 248, The N natural stone blocks 220 are connected to the upper end of the pipe core part 240 by repeating this process by moving the block 221 upward to form the adhesive part 230 on the upper surface of the second natural stone block 222 .

The concrete pouring process of the fourth step S400 includes injecting concrete into the N natural stone blocks 220 to form a concrete layer in a space between the inner surface of the natural stone block 220 and the outer surface of the pipe body 242 .

In the fifth step S500, a body foundation column 250 having a horizontal cross section similar to the horizontal cross-sectional shape of the latching portion 248 is formed by pouring concrete under the latching portion 248 in the process of forming the body foundation column .

In the sixth step S600, the base member forming and joining process is performed by forming the base member 300 having a shape of a cube formed of concrete and having a space therein and having open top and bottom surfaces, And the body base column 250 is inserted into the base member 300 and coupled through concrete pouring.

The seventh step S700 is a process of welding an upper surface of the pipe core member 240 and forming an anchor 160 which can be screwed by a weld 140 formed by welding in an anchor forming process.

As described above, according to the present invention, it is possible to provide a method of manufacturing a prefabricated stone pillar capable of forming a natural stone column while minimizing the use of natural stone.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

100: prefabricated pillar 200: column body
220: natural stone block 230:
240: pipe core part 242: pipe body
244: iron core member 246: connecting member
248: Retaining part 300: Base member part

Claims (10)

delete delete delete delete delete A plurality of iron core members 244 are arranged on the outer circumferential surface of the hollow pipe body 242 in the longitudinal direction of the hollow pipe body 242,
The iron core member 244 is attached to the hollow pipe body 242 by welding,
After installing the hollow pipe body 242 with the iron core member 244 inside the natural stone block 220,
Wherein the concrete block is poured into the natural stone block (220). The method of claim 6,
Wherein a plurality of iron core members (244) are bundled with a wire (245) in the natural stone block (220), and then concrete is laid. An iron core member 244 radially formed around the pipe body 242 and a connecting member 246 connecting the iron core member 244 and the pipe body 242. The pipe body 242 includes a pipe- A pipe core part 240 including a pipe core part 240,
A process of installing a natural stone block in a pipe core portion by inserting a pipe core portion 240 into a hole 223 of a natural stone block 220 with a natural stone block 220 having a hole 223 formed therein;
And pouring the concrete into the natural stone block. The method of claim 8,
The first natural stone block 221 is moved from the upper portion to the lower portion of the pipe core portion 240 and moved until the first natural stone block 221 is stopped by the engaging portion 248. In the first natural stone block 221, And the adhesive portion (230) is formed by applying an adhesive to the upper end of the protruding pillar. The method according to claim 8 or 9,
Forming a body base post,
After forming a base member 300 having a shape of a cube formed of concrete and having a space formed therein and having open top and bottom surfaces, the base base column 250 is drawn into the base member 300 Wherein the method further comprises a step of forming and joining a base member, which is a process of coupling through concrete pouring.

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