KR101391184B1 - Apparatus for reinforcing column - Google Patents

Abstract

The present invention relates to an apparatus for reinforcing a column structure, comprising: a plurality of internal reinforcing plates surrounding a circumferential surface of the column; At least a pair of external reinforcing plates surrounding an outer periphery of the column so as to be spaced apart from the internal reinforcing plate by mutual coupling; And a pressure regulating member provided on the external reinforcing plate and pressing and releasing the internal reinforcing plate toward the pillar side.
Thereby, there is provided an apparatus for reinforcing a column structure in which the columnar structure is improved in the columnar structure strengthening performance, and the ease of construction, maintenance, and disassembly is remarkably improved.

Description

[0001] Apparatus for reinforcing column [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus for reinforcing a column structure, and more particularly, to an apparatus for reinforcing a column structure having a column structure capable of improving the load- .

Reinforced concrete (RC) columns in typical buildings are filled with reinforcing bars longitudinally and laterally for structural reinforcement. However, it is difficult to guarantee the safety of the building from the earthquake or the strong wind accompanied by the huge typhoon by merely reinforcing the reinforced concrete structure in longitudinal and transverse directions.

As a method for reinforcing the strength of the column structure, a technique for constructing a post structure by further reinforcing a structural reinforcement bar such as a shear reinforcement or a wire rope for shear reinforcement inside the column structure is disclosed in Korean Patent No. 10-0763534 And the like.

However, reinforcement of the column structure using reinforcing bars or wire ropes is used to reinforce the column structures before piling the concrete structure during the expansion and contraction of the building, and it is impossible to reinforce the column structure of the already- There is a problem.

On the other hand, Korean Patent Registration No. 10-064062 discloses a structural reinforcement system and method using a reinforcing member and a wire rope as a proof reinforcement technique for a pillar structure of a new or existing structure. This technique attaches an internal force stiffener to the peripheral surface of the column structure and bonds the wire rope around the columns and the internal stiffener with a bonding force of appropriate strength so that the internal stiffener is pressed against the column structure.

Here, the strength reinforcing member is provided with a L-shaped member corresponding to the corner portion of the column structure and a T-shaped member having a flat portion closely attached to the outer surface of the column structure.

The wire rope tightly and forcefully presses the internal force reinforcing member in the transverse direction with respect to the post structure in such a manner as to enclose the L-shaped member and the T-shaped member in the circumferential direction and fasten the eye bolts and the eye bolt connecting ports provided at both ends, The structure reinforces the strength.

Also, in consideration of the prevention of corrosion of the column structure and the corrosion resistance of the stiffener and the like, and further improvement of the proof strength, consideration is taken to form a covering layer such as a mortar around the column structure so as to prevent the strength reinforcement and the wire rope from being exposed to the outside.

However, in the structure reinforcing system and method using such a reinforcement for reinforcing force and wire rope, since the bonding region of the wire rope is formed in one region of the pillar structure peripheral region, there is a problem that a certain bonding force is hardly formed in the entire peripheral region of the pillar structure have.

As a result, the strength reinforcing members are brought into close contact with the circumferential surface of the column structure with different pressing forces, respectively, so that there arises a problem in that there is a limit to improvement in the strength strengthening performance of the column structure.

In addition, since it is necessary to further improve the reinforcing performance and to form a coating layer such as a mortar in consideration of the external exposure of the reinforcing member and wire rope, corrosion prevention, and appearance, the coating process such as mortar for forming a coating layer, And the construction convenience such as an increase in the construction period is deteriorated.

In addition, since the covering layer needs to be removed at the time of maintenance and management or disassembly of the internal strength reinforcing material or the like as needed, there is a problem that the convenience of maintenance and disassembly is lowered.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide an apparatus for reinforcing a column structure, which is capable of enhancing the load carrying capacity of a column structure and improving the convenience of construction, maintenance, and dismantling.

According to an aspect of the present invention, there is provided an apparatus for reinforcing a column structure, comprising: a plurality of internal reinforcing plates surrounding a circumferential surface of the column; At least a pair of external reinforcing plates surrounding an outer periphery of the column so as to be spaced apart from the internal reinforcing plate by mutual coupling; And a pressure regulating member provided on the external reinforcing plate and pressing and releasing the internal reinforcing plate toward the pillar side.

The pressure gauge may further include a pressure spacer provided between the inner reinforcing plate and the outer reinforcing plate to transmit a pressing force transmitted from the pressure regulating member to the inner reinforcing plate.

And the pressure regulating member is fastened and disengaged from the pressure regulating hole on the outside of the external reinforcing plate so that the pressure regulating member is pressed against the pressure regulating plate, And releasing the pressure is effective.

At this time, it is more preferable that a pressing groove into which the pressure regulating member is inserted is formed at one end of the pressure spacer adjacent to the pressure regulating hole.

On the other hand, the outer reinforcing plates may form a flat cross section of a circular flat section, an elliptical section, a polygonal flat section and a streamlined closed loop flat section by mutual coupling.

A plurality of engaging holes are formed in the mutually adjoining opposite end portions of the outer reinforcing plates along a vertical direction, and the mutual engaging of the outer reinforcing plates is achieved by fastening bolts and nuts through the engaging holes .

At this time, it is effective that at least one of the two engaging holes formed on both side engaging ends of at least one of the mutually adjoining two engaging ends of the external reinforcing plates is formed as a horizontally elongated hole.

It is more preferable that the inner reinforcing plate and the outer reinforcing plate are provided in corresponding numbers.

On the other hand, it is more effective that the pressure spacer is integrally coupled to the outer surface of the inner reinforcing plate.

It is preferable that a plurality of the pressure spacers are disposed on the outer surface of each of the inner reinforcing plates.

The column may have a polygonal flat cross-section, and the inner reinforcing plate may be provided with a number of flat plate members corresponding to at least the number of polygonal outer sides of the column.

At this time, it is preferable that the pressure spacer is disposed orthogonally to the plate surface of the inner reinforcing plate.

Alternatively, the column may have a circular flat cross section, and each of the internal reinforcing plates may be provided with a curved plate member corresponding to at least a part of the circumferential surface of the column.

At this time, it is effective that the pressure spacer is arranged in a radial direction from the center of the air.

According to the present invention, there is provided an apparatus for reinforcing a columnar structure having an improved columnar structure and a significantly improved ease of installation, maintenance, and disassembly.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of an apparatus for strengthening a column structure according to an embodiment of the present invention;
Fig. 2 is an exploded perspective view of a part of the strength strengthening device of the column structure of Fig. 1,
FIG. 3 is an exploded perspective view of another embodiment of a strength strengthening apparatus for a pillar structure according to another embodiment of the present invention;
Fig. 4 is a plan sectional view of the strength strengthening device of the column structure of Fig. 1,
5 is a horizontal sectional view of an apparatus for strengthening a column structure according to another embodiment of the present invention,
FIG. 6 is a horizontal cross-sectional view of a strength strengthening apparatus for a pillar structure according to another embodiment of the present invention,
FIG. 7 is a horizontal cross-sectional view of an apparatus for strengthening a column structure according to another embodiment of the present invention,
8 is an enlarged perspective view of a region A of Figs. 1 to 7,
FIG. 9 is a partially enlarged cross-sectional view of an outer steel plate and a pressure spacer contact region of a columnar structure reinforcing apparatus according to another embodiment of the present invention, FIG.
10 is a plan sectional view of an apparatus for strengthening a column structure according to another embodiment of the present invention.

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

1 and 2, an internal strength reinforcing apparatus 1 for a pillar structure according to the present invention includes a plurality of internal reinforcing plates 10 forming a pressing surface on a peripheral surface of a column 3, And a pressure spacer (20) for transmitting the pressing force transmitted from the external reinforcing plate (30) and the pressure regulating member (40) to the internal reinforcing plate (10). An external reinforcing plate 30 that presses the pressure spacer 20 toward the column 3 while forming an outer appearance of the outside of the column 3 and an external reinforcing plate 30 that presses the pressure spacer 20 outside the external reinforcing plate 30 toward the column 3 And a pressure regulating member (40) for pressurizing and releasing the pressurizing force.

The inner reinforcing plates 10 are provided as plate-shaped members contacting the peripheral surface of the column 3 at least at a predetermined interval along the circumferential surface of the column 3.

1 to 5, the inner reinforcing plate 10 may be provided as a flat plate member corresponding to each surface of the column 3 when the column 3 is a column of a polygonal flat cross-sectional shape such as a square . Alternatively, the inner reinforcing plate 10 may be provided as a curved plate member corresponding to the circumferential surface of the column 3 when the column 3 is a column having a circular flat cross-sectional shape, as shown in Figs.

At this time, the inner reinforcing plate 10 corresponding to one surface of the column 3 is provided as a single-plate member having a length corresponding to the vertical length of the column 3 as shown in FIG. 2, As shown in the figures, a plurality of plate members may be provided in contact with one surface of the column 3 at predetermined intervals along the vertical direction of the column 3. The structure of the single or plurality of internal reinforcing plates 10 shown in Figs. 2 and 3 is formed by the inner reinforcing plate 10 in the form of a flat plate corresponding to the polygonal flat cross-section 3 or the curved plate 3 corresponding to the round flat cross- It is of course possible to apply to both of the internal reinforcing plates 10 in the form of a member.

The internal reinforcing plate 10 is disposed so as to be in contact with the peripheral surface of the column 3 at least at a predetermined interval along the circumferential surface of the column 3 as described above, May be provided so as to be in contact with one surface of the column 3 as a whole. That is, the entire circumference of the column 3 can be surrounded by the inner reinforcing plates 10.

The inner reinforcing plate 10 is preferably a metal plate in consideration of the strength, and in some cases, a reinforced plastic plate having sufficient strength can be used. The inner reinforcing plate 10 may be fixed to the column 3 by a fixing means separate from the anchor bolts or the like during the construction process.

The pressurizing spacer 20 is arranged to be outwardly transversely from the outer surface of each inner reinforcing plate 10 and transmits a pressing force transmitted from the outer reinforcing plate 30 to the inner reinforcing plate 10. [

As shown in FIG. 2, the pressure spacers 20 are preferably provided on the internal reinforcing plates 10 in plural along the circumferential direction of the column 3, and correspond to the entire length of the internal reinforcing plate 10 in the vertical direction It is preferable to have a length of Of course, the pressure spacer 20 is as shown in Fig. Or may be provided at predetermined intervals along the vertical direction of the inner reinforcing plate 10. [ Although not shown, the pressure spacers 20 may be provided in the form of rods or bars and may be coupled to the entire area of the inner reinforcing plate 10 with a predetermined gap therebetween.

1 to 5, when the column 3 is a column having a polygonal flat cross-sectional shape, the pressure spacers 20 are orthogonal to the plate surface of the inner reinforcing plate 10, which is a flat plate member, 7, when the column 3 is a column having a circular cross-sectional shape, the center of the internal reinforcing plate 10 provided as a curved plate member, that is, the center of the column 3 It is preferable to be disposed in a radial direction. As a result, the pressing force transmitted from the external reinforcing plate 30 can be uniformly transmitted to the entire area of the internal reinforcing plate 10.

Of course, each pressurizing spacer 20 can be arranged in a straight line when viewed from a plane, even when the column 3 is a column having a circular cross-sectional shape, as shown in Fig.

On the other hand, a pressing groove 11 into which one end of the pressure regulating member 40 is inserted may be formed in an end region of the pressing spacer 20 facing the external reinforcing plate 30 on the outward side. This pressing groove accurately guides the pressing direction of the pressure regulating member 40 in the longitudinal direction, i.e., the lateral direction, of the pressure spacer 20. [ A pressure regulating hole 39 is formed in the outer reinforcing plate of the region corresponding to the pressing groove 11 to fasten and disengage the pressure regulating member 40. It is needless to say that the pressure regulating member 40 is in contact with the end of the pressure spacer 20 without forming the pressure groove 11 in the pressure spacer 20 as shown in Fig.

The pressure spacer 20 may be made of the same material as the inner reinforcing plate 10 and may be integrally formed with the inner reinforcing plate 10. In some cases, the pressure spacer 20 may be formed by a bolt- The inner reinforcing plates 10 may be integrally formed by mutual engagement.

On the other hand, the outer reinforcing plate 30 has a plurality of outer reinforcing plates 30 surrounding the outer peripheries of the columns 3 so as to be spaced apart from the inner reinforcing plates 10 with the pressure spacers 20 therebetween in the peripheral region of the columns 3 by mutual engagement. Like member.

It is preferable that the external reinforcing plate 30 is provided with a plurality of curved plate members so as to have a circular tube shape having a circular flat cross section by mutual engagement.

1 to 4, 6 and 7, it is preferable that the external reinforcing plate 30 is provided in a number corresponding to the number of the internal reinforcing plates 10 in the transmission of the pressing force. That is, when the number of the inner reinforcing plates 10 is four, four outer reinforcing plates 30 corresponding to the inner reinforcing plates 10 are provided, so that the inner reinforcing plates 10 and the outer reinforcing plates 30 And are disposed in opposing shapes. Of course, as shown in Fig. 5, the external reinforcing plates 30 may be provided in at least one pair that can be combined and disassembled without regard to the number of the internal reinforcing plates 10. [

The outer reinforcing plates 30 are formed with end regions adjacent to each other as an engaging end, and a plurality of engaging holes 31 are formed on both engaging ends so as to correspond to each other along a vertical direction. By fastening the bolts 35 and the nuts 37 through the coupling holes 31, the outer reinforcing plates 30 surround the outer periphery of the column 3 so as to have a circular flat cross-section, 20 to the column 3 side to closely contact the inner reinforcing plates 10 with the peripheral surface of the column 3 with a predetermined pressing force.

At this time, the mutually adjoining both end regions of the outer reinforcing plates 30 are formed so as to correspond to each other so that the outer side surface and the inner side surface of the outer side reinforcing plate 30 are formed as the outer side surface and the inner side surface, Structure is preferable because it does not deteriorate the overall appearance.

It is preferable that at least one of the two coupling holes 31, 33 formed in the both side coupling ends of at least one of the two neighboring coupling ends of the external reinforcing plates 30 is formed as a horizontal slot. This provides a space for mutual coupling structure of the external reinforcing plates 30 to provide ease of construction and is preferable for controlling the pressing force generated in the mutual coupling process of the external reinforcing plates 30. [

The coupling holes 31 formed in adjacent areas of the external reinforcing plates 30 are not exposed to the outside after the bolts 35 and the nuts 37 are fastened and the coupling holes 31 and the bolts 35 are not exposed to the outside It can be closed with a separate finish cover.

In addition, the joining structure of both adjacent joining ends of the external reinforcing plates 30 can be variously formed. A bolt 35 and a nut 37 are provided on the coupling hole 31 of the coupling flange 31. The bolt 35 and the nut 37 are engaged with each other, The outer reinforcing plates 30 can be coupled to each other in a manner to fasten the outer reinforcing plates 30 to each other.

Alternatively, both joint ends of one of the two mutually adjacent joint ends of the external reinforcing plates 30 are formed by the coupling holes 31, the bolts 35 and the nuts 37 as described above And the outer reinforcing plates 30 can be joined by forming an interlocking engaging structure at the remaining engaging ends.

Here, disassembly of the external reinforcing plates 30 can be easily accomplished by disengaging the bolts 35 and the nuts 37.

On the other hand, a pressure regulating hole 39 penetrating through the outer reinforcing plate surface of the region corresponding to the pressing groove 11 of the pressure spacer 20 is formed. The inner circumferential surface of the pressure adjusting hole 39 is formed by a female screw and the male screw portion 43 is formed on the pressing adjusting member 40 so that the force adjusting member 40 is fastened to the pressure adjusting hole 39 The pressing force of the pressure spacer 20 can be adjusted. At this time, the pressing spacers 20 may not be formed with the pressing grooves 11. That is, the pressure regulating member 40 may be in direct contact with the one end of the pressure spacer 20 through the pressure regulating hole 39 and pressurized.

It is preferable that the external reinforcing plates 30 are also made of the same material as the internal reinforcing plate 10 and the pressurizing spacer 20.

On the other hand, the pressure regulating member 40 is formed with a male screw portion 43 to be fastened to the pressurizing hole 39 of the external reinforcing plate 30 on the outer circumferential surface thereof, May be provided in the form of a bolt in which the head portion 41 is formed. Here, the head portion 41 may be a head portion having a shape corresponding to a working tool such as a bolt head so as to adjust the fastening force of the pressure regulating member 40 by using a separate working tool. In some cases, It may be provided with a head portion which can be gripped so as to adjust the fastening force.

The pressure regulating member 40 and the pressure grooves 11 and the pressure regulating holes 39 are formed such that the pressure spacers 20 and the internal reinforcing plates 10 have a length corresponding to the entire length of the column 3 The pressurizing spacer 20 and the inner reinforcing plate 10 are arranged at predetermined intervals in the vertical direction of the column 3 at predetermined intervals along the vertical direction of each pressurizing spacer 20 . Alternatively, when the pressure spacer 20 is provided in the form of a rod or bar, it may be provided in a number corresponding to each pressure spacer 20.

Further, the pressure regulating member 40 may directly press a plurality of regions of the inner reinforcing plate 10, as shown in Fig. In this case, the pressure spacer 20 can be omitted.

In the construction of the strength reinforcing apparatus 1 for a column structure according to the present invention having such a configuration, first, the inner reinforcing plates 10 including the pressure spacers 20 are placed on the circumferential surface of the column 3 at a predetermined interval Tightly.

At this time, the inner reinforcing plate 10 may be fixed using a fastening part such as an anchor bolt or a predetermined adhesive material.

In the state where the inner reinforcing plates 10 are fixed to the column 3, the pressure spacers 20 are arranged in the lateral direction toward the outside of the column 3.

In this state, the outer reinforcing plates 30 are coupled to each other so as to surround and contact the outside of the pressure spacer 20 at the outer periphery of the column 3. At this time, the joining of the external reinforcing plates 30 is performed by fastening the bolts 35 and the nuts 37 to the joining holes 31 of both adjacent joining end portions as described above.

At this time, any one of the engaging holes 33 formed in the both end portions of the adjacent reinforcing plates 30, which are finally connected to each other among the external reinforcing plates 30, And the outer reinforcing plates 30 are pressed inward so that the outer reinforcing plates 30 have a tension that is compressed toward the central portion of the column 3 by using the long hole structure as the long hole 33 The bolts 35 and the nuts 37 are fastened to the cooperating holes 33 and the corresponding engaging holes 31. [

The external reinforcing plates 30 press the pressing spacers 20 laterally toward the column 3 and the pressing force transmitted to the pressing spacer 20 is transmitted to the column 3 through the internal reinforcing plate 10. [ So that the proof stress of the column 3 is remarkably increased.

After the external reinforcing plate 30 is applied, the fastening force of the pressure regulating members 40 is adjusted so that the pressure spacers 20 can be pressed toward the column 3 with an appropriate pressing force desired by the operator, Can be adjusted.

As described above, according to the present invention, an internal reinforcement plate and a pressure spacer are fixed to the circumference of a column, and the external reinforcement plates are coupled to each other. Thus, The strength can be reinforced.

And the transverse pressing force transmitted from the outer reinforcing plate is uniformly transmitted to the entire area of the circumference of the column by the pressure spacer and the inner reinforcing plate, so that the column reinforcing performance of the column structure is remarkably improved.

Further, since the inner reinforcing plate or the pressure spacers are not exposed to the outside by the outer reinforcing plate, additional construction for constructing a separate mortar covering layer or the like in consideration of appearance is unnecessary. As a result, the convenience of construction such as the construction process and the shortening of the construction time is remarkably improved.

In addition, since it is possible to easily disassemble only by releasing the joint state of the outer reinforcing plates and the fixed state of the inner reinforcing plates at the time of maintenance and management or disassembly of the column strengthening apparatus according to necessity, The convenience is greatly improved.

3: Column 10: Internal reinforcing plate
20: pressure spacer 30: external reinforcing plate
40: pressure regulating member

Claims (14)

1. An apparatus for strengthening a column structure,
A plurality of internal reinforcing plates surrounding the peripheral surface of the column;
At least a pair of external reinforcing plates surrounding an outer periphery of the column so as to be spaced apart from the internal reinforcing plate by mutual coupling; And
A pressure regulating member provided on the external reinforcing plate and pressing and releasing the internal reinforcing plate toward the column;
A pressure spacer provided between the inner reinforcing plate and the outer reinforcing plate to transmit a pressing force transmitted from the pressure adjusting member to the inner reinforcing plate;
And a reinforcing member for reinforcing the pillar structure. delete The method according to claim 1,
Wherein the external reinforcing plate is provided with a pressure adjusting hole having a female screw portion in a region corresponding to the pressure spacer,
Wherein the pressure regulating member is engaged and disengaged from the pressure regulating hole at the outside of the external reinforcing plate to press and release the pressure spacers. The method of claim 3,
Wherein a pressure groove is formed in one end of the pressure spacer adjacent to the pressure adjusting hole so that the pressure adjusting member is inserted. 5. The method of claim 4,
Wherein the outer reinforcing plate forms a flat cross section of a circular flat section, an elliptical section, a polygonal flat section and a streamlined closed loop flat section by mutual coupling. 6. The method of claim 5,
Wherein a plurality of engagement holes are formed to correspond to mutually adjacent engagement ends of the outer reinforcing plates along a vertical direction and mutual engagement of the outer reinforcing plates is achieved by fastening a bolt and a nut through the engagement hole. An apparatus for reinforcing the strength of column structures. The method according to claim 6,
Wherein at least one of the two engaging holes formed on both side engaging ends of at least one of the mutually adjoining both engaging ends of the external reinforcing plates is formed as a horizontally elongated hole. 8. The method of claim 7,
Wherein the internal reinforcing plate and the external reinforcing plate are provided corresponding to each other. 9. The method of claim 8,
Wherein the pressure spacer is integrally coupled to an outer surface of the inner reinforcing plate. 10. The method of claim 9,
Wherein a plurality of the pressure spacers are disposed on an outer surface of each of the inner reinforcing plates. 11. The method according to any one of claims 1 to 10,
Wherein the column has a polygonal flat cross-section, and the inner reinforcing plate is provided with a number of flat plate members corresponding to at least the number of the polygonal outer side surfaces of the pillars. 12. The method of claim 11,
Wherein the pressure spacer is disposed orthogonally to the plate surface of the inner reinforcing plate. 11. The method according to any one of claims 1 to 10,
Wherein the column has a circular flat cross-section, and each of the internal reinforcing plates is provided as a curved plate member corresponding to at least a part of the circumferential surface of the column. 14. The method of claim 13,
And the pressure spacer is disposed in a radial direction from a center of the air chamber.

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