KR100885131B1 - A fixing structure of pillar and construction method thereof - Google Patents

Abstract

A pillar fixing structure is provided to be constructed easily and to reduce required time and man power by inserting and fixing a lower part of pillar in the reclaimed pipe support. A pillar fixing structure contains a concrete foundation structure(11), a tubular support(10) unified with a concrete base foundation using a plurality of binding bolts(13), a plurality of locking bolts(15) jointed and fixed in a hole formed in a bottom side of the pipe support, a column(20) fixing a cutout groove(22), a fastening unit(30) jointing and fixing the pipe support and the column and a cap(40) put on a ground fastening fixing site.

Description

A fixing structure of pillar and construction method

The present invention relates to a column fixing structure for installing pillars of facilities such as traffic lights, street lamps, road signs, CTVs, steel pipe poles, etc., and more specifically, underground concrete made of precast concrete (PC). Since the lower part of the column is inserted and fixed to the tubular support embedded in the base structure, the construction is easy, and the shortening of the air and the construction cost can significantly reduce the construction cost and relates to a construction method thereof.

In general, in the installation of facilities such as traffic lights, street lights, road signs, CTVs, steel pipe poles, etc., a concrete foundation is embedded in the ground, and the flange of the bottom of the prop is assembled to the anchor bolt protruding therefrom. Most of the installation method is installed in such a way that the mounting position of the bolt insertion hole formed in the flange of the bottom of the support concrete and the anchoring position of the anchor bolt of the foundation concrete was able to be installed. There is a problem that there is a problem that is changed little by little, causing a lot of difficulty in standing upright installation on the foundation concrete.

In particular, street lamps are lighting facilities installed along the roadside for the purpose of street lighting, traffic safety, or aesthetics.The street lamp is a kind suitable for installation places such as highways, main roads in the city, commercial roads, and residential district roads. As is used, there are a number of types of street lamps of street lamps, street lamps made of a cylindrical shape of the lower end is a target of the present invention.

The installation of the pillars of facilities such as traffic lights, street lamps, road signs, etc. has the same length depending on the location. The anchor bolt is installed upright on the concrete foundation structure installed on the foundation floor and fastened with nuts.

In other words, the pillar installation method of the facilities such as street lamps and road signs are carried out in order to pour the foundation concrete structure of the pillar when installing the pillar, install the formwork after the excavation, and pinch the conduit to protrude from the sides of the formwork to the upper surface. After installing anchor bolts to protrude in all directions from the bottom surface, the concrete is poured to install the foundation structure, and the foundation structure is cured.

Street lamp installation example employing such a conventional pillar mounting method is shown in Figure 1 and 2a, 2b is a plurality of anchor bolts (6) upward on the top of the concrete foundation structure (7) cured by concrete The conduit 9 is formed to protrude, and the side and the upper center are connected to each other. The concrete foundation structure 7 is embedded to the ground so as to expose the upper end, and the bolt hole 5a formed in the flange 5 of the street lamp column 2. Insert the anchor bolt (6) and tighten it with the nut (3) to erect the street lamp pole (2), and the power line embedded in the ground penetrates into the conduit (9) and connects with the street lamp (1) to the street lamp (1). To make it available.

The assembly of the street lamp column (2) and the concrete foundation (7) structure by the anchor bolts (6) and the nut (3) as described above to allow the replacement of the wire or other side work inside the street lamp column (2) For sake.

In addition, in some cases it is wrapped with a base cover (4) to protect the anchor bolt (6) and the nut (6) to which the street lamp pole (2) and the concrete foundation (7) are coupled.

Figure 2a is an exploded perspective view showing an enlarged state of the installation of the street lamp in the conventional structure in a conventional manner, the anchor bolts 6 protruding in all directions on the concrete foundation structure (7) and a plurality of conduits protruding from the side to the center (9) is protruding, the anchor bolt is inserted into the bolt hole (5a) of the flange (5) having a slightly smaller area than the upper surface of the concrete foundation (7) to install the street lamp (2) by coupling with a nut.

On the other hand, when installing the street lamps (2) as described above, the lifting of the heavy load of the street lamps (2) with a crane and then the flange (5) of the street lamps (2) to the anchor bolt (6) protruding from the base structure (7) It is assembled by inserting the bolt hole (5a) formed in the but the load is heavy, it is difficult to align the center of the anchor bolt (6) and the nut (3) because the worker is hanging on the crane, a number of anchor bolts ( 6) and the nut (3), such as the construction takes a lot of time and manpower, there is a drawback to increase the cost required for construction.

In addition, in the case of wire replacement or other repair work inside the street lamp (2), after fixing the upper portion of the street lamp (2) with a crane, lifting the nut (3) from the anchor bolt (6) one by one after lifting the wire replacement or After completing the repair work, the lamppost 2 needs to be assembled again to the concrete foundation structure 7, and thus, the assembly is cumbersome as in the first construction of the lamppost 1.

In addition, the anchor bolt 6 of the foundation structure 7 is inserted into the bolt hole 5a of the base 5 formed in the lower part of the street lamp 2, and then tightened with a nut 3, but when time passes, , Rain or dust is introduced into the fastening portion of the anchor bolt (6) and the nut (3) is easy to corrode, there is a lot of difficulty in separating during repair work.

In addition, when the anchor bolt 6 is inserted into the street lamp column 2 and the concrete foundation structure 7 and fastened with the nut 3, the anchor bolt 6 protrudes from the upper part of the base 5 so that the pedestrian can rest on the foot at night. Safety accidents caused by falling over were injured, and the concrete foundation structure 7 has a narrow pyramid shape with a narrow upper portion and a lower lower portion thereof.

The present invention has been invented to solve various defects and problems caused by the installation of pillars of a conventional street light or road sign in view of the above situation, the purpose of which is the basement concrete base material made of precast concrete (PC) By inserting and fixing the lower part of the column to the tubular support embedded in the structure, the construction is easy, and the construction cost is remarkably reduced due to the reduction of time and manpower, thereby providing a pillar fixing structure having excellent economic efficiency and a construction method thereof.

Another object of the present invention is not to use a plurality of anchor bolts and nuts located on the ground when installing the ground poles can be used stably for a long time without fear of shortening the life due to corrosion of the anchor bolts or nuts long life In addition, it is easy to separate and provide a pillar fixing structure and a construction method that can simplify the repair work in a short time at a low cost.

Still another object of the present invention is to use a square pyramid-shaped, straight polycylindrical precast concrete (PC) without using a pyramid-shaped precast concrete (PC) with a narrow upper and wide lower portion as a concrete foundation structure. In order to reduce the inconvenience of pedestrians walking on the sidewalks, it is possible to install very close to the roadway without entering much of the sidewalks, and to provide a pillar fixing structure with a beautiful appearance and a construction method thereof.

The column fixing structure of the present invention includes a tubular support 10 embedded in a central hollow portion of an underground concrete foundation structure 11, a column 20 inserted into and fixed to the tubular support 10, and the tubular support ( 10, the coupling means 30 for fastening and fixing the tubular support 10 and the pillar 20 while the pillar 20 is fitted, and the ground fastening fixing portion of the tubular support 10 and the pillar 20 is covered. Characterized in that the cap 40.

The present invention is easy to install by inserting the lower part of the column to the tubular support embedded in the concrete foundation structure made of precast concrete (PC), the construction cost is significantly reduced by reducing the time and manpower required for construction Excellent economic feasibility, and do not use a lot of anchor bolts and nuts on the ground when installing the pillars on the ground can be used stably for a long time without fear of shortening the life due to corrosion of anchor bolts and nuts. In addition, it is easy to separate, so the maintenance work can be simplified in a short time at a low cost, and the pillars such as street lamps can be installed very close to the roadway without entering many sidewalks, which can reduce the inconvenience of pedestrians walking on the sidewalk. .

Hereinafter, the pillar fixing structure and the construction method of the present invention will be described in detail with the accompanying drawings and preferred embodiments.

Figure 3 is a perspective view of the pillar fixing structure of the present invention, Figure 4 is an exploded perspective view of the pillar fixing structure of the present invention, Figure 5 is a view showing a coupling state of the components in the pillar fixing structure of the present invention, Figure 6 is a pillar fixing structure of the present invention State of use cross-sectional view, Figure 7 is a flow chart of the process of constructing the column fixing structure of the present invention, the column fixing structure of the present invention is embedded in the central hollow portion of the concrete foundation structure 11, the concrete foundation structure 11 and the tip is A tubular support 10 integral with the concrete foundation structure 11 by a welded binding bolt 13 and a locking bolt inserted into the tubular support 10 and fastened to the tubular support 10 ( The pillar 20 to which the incision groove 22 formed by cutting the lower portion upward in a predetermined length to 15 is fixed, and the tubular support 10 and the pillar 20 while the pillar 20 is fitted to the tubular support 10. Fastening fastening Consists of a connection means 30 and a cap 40 which is covered on the ground fastening fixing portion of said tubular support body 10 and post 20.

The tubular support 10 is a weather-resistant steel pipe, a plurality of fastening holes 12 for fastening the fastening means 30 is formed on the upper portion, and a plurality of fastening bolts 13 whose ends are welded to the outer periphery of the insert are It is embedded in the concrete foundation structure (11) to be integrated, the wire hole (16) in a portion of the upper tubular support 10 of the binding bolt 13 abuts with a plurality of wire holes 14 of the concrete foundation structure (11) A plurality of locking bolts 15 are formed on the lower side of the tubular support 10 below the binding bolt 13 so that the inner surface of the tubular support 10 and the bolt head have a predetermined interval. It is embedded in the concrete foundation structure 11 and fixed in a state of being fastened and fixed to a hole formed at the lower side of the 10.

Here, the concrete foundation structure 11 is preferably a polygonal pillar of any one of 4 to 12 square pillars so as to increase the fixed strength without rotating when buried in the basement with a tubular penetrating up and down.

In addition, the pillar 20 has a cylindrical tube 21 formed so that the lower portion is inserted into the tubular support 10, and the lower end of the cylindrical tube 21 has an inner surface and a locking bolt 15 of the tubular support 10. A plurality of incision grooves 22 formed to be cut in a predetermined length upwardly so as to be inserted into the bolt body 15 'between the bolt heads of the lower part of the column 20 into the inner surface 10 of the tubular support 10. The wire insertion hole 23 formed in the side surface of the said cylindrical tube 21 and the through-hole 24 formed in the part which contact | connect the fastening hole 12 are formed in the part which contact | connects the electric wire hole 16 when it is fixed. .

Here, the tubular support 10 is made of precast concrete in a factory so that the tubular support 10 is embedded in the concrete foundation structure 11, and is embedded in the basement, and the tubular support 10 of the concrete foundation structure 11 is embedded therein. Since the pillar 20 to be inserted into) only the lower portion inserted into the tubular support 10 forms the shape of the cylindrical tube, the upper portion of the pillar 20 except for this portion is not limited to a special shape and structure.

For example, the upper part of the pillar 20 except the part inserted into the tubular support 10 may be a cylindrical pillar, or a polygonal pillar, such as a hexagonal pillar and an octagonal pillar, may be sufficient as it.

Therefore, the pillar 20 of the present invention is not limited to any particular pillar, such as a pillar of a facility such as a street lamp, a traffic light of a road, a road sign, and inserts a lower portion of the pillar 20 embedded in the basement into the tubular support 10. If it is configured to be fixed, the other can be adopted and used regardless of the shape, structure and use of the column.

And the fastening means 30 is composed of a lock bolt 31 and the nut 32 is inserted into the pillar 20 of the tubular support 10 to the fastening hole 12 and the pillar 20 of the tubular support 10 The nut 32 is provided at both ends of the lock bolt 31 in a state in which the lock bolt 31 penetrates the pillar 20 through the fastening hole 12 and the through hole 24 while the through holes 24 coincide with each other. ) Is fastened so that the column 20 is fixed to the tubular support 10.

The cap 40 is covered on the ground connection of the tubular support 10 and the pillar 20, the connection of the cap 40 and the concrete foundation structure 11 and the cap 40 and the pillar 20 The connection is joined with a silicone adhesive.

On the other hand, the construction method of the column anchoring structure of the present invention manufactures a tubular support 10 provided with a plurality of fastening bolts 13 installed on the outer periphery of the insert portion embedded in the concrete foundation structure 11 made of precast concrete (PC) A tubular support manufacturing process (step S1); A pillar fabrication process (step S2) of manufacturing a pillar 20 having a plurality of incision grooves 22 formed at a lower end thereof so as to be inserted into the tubular support 10 and fixed thereto; An excavation step (S3 step) of digging the ground of the place where the pillar 20 is installed with an excavator; A concrete foundation structure 11 having a tubular support 10 is fabricated, and the concrete foundation structure 11 is embedded so that the upper surface of the concrete foundation structure 11 having the tubular support 10 coincides with the ground. Foundation structure embedding process (step S4); Insert the lower portion of the column 20 into the tubular support 10, the column 20 on the bolt body 15 'of the locking bolt 15 is fastened so that the inner surface and the bolt head of the tubular support 10 has a predetermined interval. And fixed by inserting the incision groove 22 formed in the lower end of the column installation step (S5 step) for fastening and fixing the tubular support 10 and the pillar 20 by the fastening means 30; It is characterized by consisting of a cap installation step (S6 step) to cover the cap 40 to the ground connection portion of the tubular support 10 and the pillar 20.

If the tubular support manufacturing process (step S1) will be described in detail, the tubular support uses a well-known weather resistant steel pipe and forms a plurality of fastening holes 12 for fastening the fastening means 30 thereon and the fastening holes 12 A plurality of wire holes 16 are formed at the bottom of the bottom), and the ends of the plurality of fastening bolts 13 are welded and installed on the outer circumference of the inserting portion, and the lower side of the tubular support 10 which is the bottom of the fastening bolts 13. The tubular support 10 is manufactured by fastening and welding a plurality of locking bolts 15 so that the inner surface of the tubular support 10 and the bolt head have a predetermined interval, and the pillar manufacturing process S2 will be described in detail. Uses a well-known cylindrical tube 21 and is upwardly inserted into the bolt body 15 'between the inner surface of the tubular support 10 and the bolt head of the locking bolt 15 at the lower end of the cylindrical tube 21. Cut a predetermined length to form a plurality of incision grooves 22, the The wire insertion hole 23 and the side surface of the cylindrical tube 21 to abut the wire hole 16 of the tubular support 10 when the lower portion of the column 20 is fixed to the cylindrical support 10, The through hole 24 is formed in a portion in contact with the fastening hole 12 to manufacture the column 20.

Next, a description will be given of the installation of the column using the present invention column fixing structure configured as described above.

In the present invention, the tubular support 10 is used by embedding the concrete foundation structure 11 made of precast concrete (PC) embedded in the tubular support 10 in the basement, as shown in FIG. 20) excavate the ground of the place to install with an excavator, such as a screw auger (step S3), to produce a concrete foundation structure 11 provided with a tubular support 10, the concrete foundation structure provided with the tubular support 10 Landfill the concrete foundation structure 11 so that the upper surface of the (11) coincides with the ground (step S4).

In this state, the bottom hollow portion of the concrete foundation structure 11 is filled with the soil sand during excavation, and the waterproof mortar 60 is filled in the upper portion of the soil sand 50, wherein the waterproof mortar 60 has no shrinkage. Cement waterproof mortar or resin mortar is used, the height is up to just below the lower end of the column 20 is inserted into the tubular support (10) (S4 step).

Filling the soil 50 and the waterproof mortar 60 is to prevent the short-circuit or short-circuit at the wire connection by the water penetrates into the pillar 20 of the concrete foundation structure (11).

Next, the wire drawn out through the wire hole 14 of the concrete foundation structure 11 and the wire hole 16 of the tubular support 10 into the tubular support 10 is a column manufactured in the S2 step pillar manufacturing process. Connect the wire drawn out into the inside of the 20 and then insert the column 20 into the inside of the tubular support 10, but the cutting bolt 22 of the column 20 hangs the bolt 15 of the tubular support 10. Insert into the body of the

In this way, the cutting groove 22 of the column 20 is inserted into the locking bolt 15 of the tubular support 10 and is fixed in a locked state.

In this state, the fastening hole 12 of the tubular support 10 and the through hole 24 of the column 20 are in a state of coincidence, so that the fastening hole 12 and the through hole 24 are locked with the lock bolt 31. The nut 32 is fastened to the lock bolt 31 by penetrating to fix the pillar 20 to the tubular support 10 (step S5).

In this case, when the pillar 20 is a heavy object such as a street lamp or a traffic sign pillar, the construction is performed using a crane or the like, and finally, the ground fastening portion of the tubular support 10 and the pillar 20. Covering the cap 40, the construction of the column is completed by bonding the connection portion of the cap 40 and the concrete foundation structure 11 and the connection portion of the cap 40 and the pillar 20 with a silicone adhesive.

In general, the concrete foundation structure in which the pillars 20 are installed is a pedestrian walking on the sidewalk due to the narrow sidewalks as the pillars such as street lamps enter the sidewalk due to the use of a square pyramid-shaped precast concrete (PC) having a narrow upper portion and a wider lower portion. Since the present invention uses the base structure 11 of the linear polygonal cylindrical shape so that the pillar can be installed very close to the roadway in India.

In addition, the pillar 20 of the present invention may be made of synthetic resin in addition to the metal, and the pillar 20 may form an uneven portion from the lower end to a predetermined height on the outside of the pillar 20 so as not to attach an advertisement. .

While the present invention has been described as a preferred embodiment, the present invention is not limited thereto, and various modifications can be made without departing from the gist of the invention.

1 is a view illustrating a state of use of a lamppost installed in a conventional foundation structure;

Figure 2a is an exploded perspective view showing the installation state of the lamppost on the foundation structure in a conventional manner,

Figure 2b is a perspective view showing the installation state of the lamppost to the foundation structure in a conventional manner,

3 is a perspective view of the pillar fixing structure of the present invention;

4 is an exploded perspective view of the column fixing structure of the present invention;

5 is a view showing a coupling state of the components in the column fixing structure of the present invention,

6 is a cross-sectional view of the state of use of the column fixing structure of the present invention;

7 is a flowchart of a process for constructing the column fixing structure of the present invention.

<Explanation of symbols for main parts of drawing>

10 tubular support 11 concrete foundation structure

12: fastening hole 13: fastening bolt

14: electrician 15: locking bolt

20: pillar 21: cylinder tube

22: cutting groove 23: wire insertion hole

24: through hole 30: fastening means

31: Rock Bolt 32: Nut

40: cap

Claims (9)

Integral with the concrete foundation structure 11 by a concrete foundation structure 11 and a plurality of fastening bolts 13 embedded in the central hollow portion of the concrete foundation structure 11 and welded to the outer periphery of the insert portion. A plurality of locking bolts 15 fastened and fixed to holes formed in the lower side of the tubular support 10 such that the tubular support 10 and the lower inner surface and the bolt head of the tubular support 10 have a predetermined interval; An incision groove 22 inserted into an inner side of the tubular support 10 and formed by cutting a lower end portion upward in a bolt body 15 'between an inner surface of the tubular support 10 and the bolt head of the locking bolt 15. ) Is fixed to the column 20, the fastening means 30 for fastening and fixing the tubular support 10 and the column 20 while the column 20 is fitted to the tubular support 10, and the tubular support ( 10) and the ground fastening fixed part of the pillar 20 Column fixing structure which is characterized by being a 40. According to claim 1, The tubular support 10 is a weather-resistant steel pipe, a plurality of fastening holes 12 for fastening the fastening means 30 is formed on the upper part, a plurality of fasteners welded to the outer periphery of the insert portion A bolt 13 is embedded in the concrete foundation structure 11 and is integrally formed. The upper tubular support 10 of the binding bolt 13 is connected to the wire hole 14 of the concrete foundation structure 11. A plurality of fastening bolts 16 are formed in the state in which a plurality of locking bolts 15 are fastened to the tubular support 10 so that the bolt heads have a predetermined distance from the inner surface of the tubular support 10 below the fastening bolt 13. Column anchoring structure characterized in that the embedded in the concrete foundation structure (11) is fixed. According to claim 1 or 2, wherein the concrete foundation structure 11 is a tubular shape of the central portion penetrates up and down so that the multi-column of any one of 4 to 12 square pillars so as to increase the fixed strength without rotating when buried underground Pillar fixing structure characterized in that it is. According to claim 1, The pillar 20 is a cylindrical tube 21 is formed so that the lower portion is inserted into the tubular support 10, the lower end of the cylindrical tube 21 and the inner surface of the tubular support 10 is engaged with A plurality of incision grooves 22 formed by cutting a predetermined length upward to be inserted into the bolt body between the bolt heads of the bolt 15 and the tubular body when the lower portion of the column 20 is inserted into and fixed to the tubular support 10. Is formed of a wire insertion hole 23 formed in the side of the cylindrical tube 21 and in contact with the wire hole 16 of the support 10, and a through hole 24 formed in the portion in contact with the fastening hole 12 A pillar fixing structure, characterized in that. According to claim 1, The fastening means 30 is composed of a lock bolt 31 and the nut 32, the column 20 is inserted into the tubular support 10 to the fastening hole 12 of the tubular support 10 and The lock bolt 31 of the rock bolt 31 passes through the pillar 20 through the fastening hole 12 and the through hole 24 in a state where the through holes 24 of the pillars 20 coincide with each other. A pillar fixing structure characterized in that the nut (32) is fastened to both ends so that the column (20) is fixed to the tubular support (10). According to claim 1, wherein the cap 40 is to cover the ground connection of the tubular support 10 and the pillar 20, the connection portion and the cap 40 of the cap 40 and the concrete foundation structure 11 The pillar fixing structure, characterized in that the connection portion of the pillar 20 and the adhesive is installed by bonding. A tubular support manufacturing process for manufacturing a tubular support 10 having a plurality of fastening bolts 13 and a plurality of fastening bolts 15 embedded in a concrete foundation structure 11 made of precast concrete (PC) (S1 step) )and; A pillar fabrication process (step S2) of manufacturing a pillar 20 having a plurality of incision grooves 22 formed at a lower end thereof so as to be inserted into the tubular support 10 and fixed thereto; An excavation process (S3 step) for digging the ground of the place where the pillar 10 is to be installed with an excavator; A concrete foundation structure (11) having a tubular support (10) is manufactured, and the concrete foundation structure (11) is embedded so that the upper surface of the concrete foundation structure (11) having the tubular support (10) coincides with the ground. Foundation structure embedding process (step S4); The lower body of the pillar 20 is inserted into the tubular support 10, but the bolt body 15 of the locking bolt 15 is fastened so that the inner surface of the tubular support 10 and the bolt head of the locking bolt 15 have a predetermined interval. ') To fix the incision groove 22 formed at the lower end of the pillar 20, and to install and fix the tubular support 10 and the pillar 20 by fastening means (30) and ; Construction method of the column anchoring structure, characterized in that the cap installation process (S6 step) to cover and fix the cap (40) on the ground connection portion of the tubular support (10) and the pillar (20). According to claim 7, The tubular support 10 is a weather-resistant steel pipe, a plurality of fastening holes 12 for fastening the fastening means 30 is formed on the upper portion, a plurality of fasteners are welded to the outer periphery of the insert portion A bolt 13 is embedded in the concrete foundation structure 11 and is integrally formed. The upper tubular support 10 of the binding bolt 13 is connected to the wire hole 14 of the concrete foundation structure 11. A plurality of fastening bolts 15 are formed in the tubular support so that the inner surface of the tubular support 10 and the bolt head have a predetermined distance from the lower side of the tubular support 10 that is formed below the binding bolt 13. Construction method of the column fixing structure, characterized in that the buried in the concrete foundation structure (11) is fastened to the fixed state. According to claim 7, The pillar 20 is a cylindrical tube 21 is formed so that the lower portion is inserted into the tubular support 10, the lower end of the cylindrical tube 21 and the inner surface of the tubular support 10 is engaged with A plurality of cutting grooves 22 formed by cutting a predetermined length upward to be inserted into the bolt body 15 ′ between the bolt heads of the bolt 15 and the lower portion of the column 20 are fixed to the tubular support 10. The wire insertion hole 23 formed in the side surface of the cylindrical tube 21 and in contact with the wire hole 16 of the tubular support 10, and the through hole 24 formed in the portion in contact with the fastening hole 12 Construction method of the column fixing structure, characterized in that formed in.

Images