KR101400449B1 - Reinforcing device of beam member - Google Patents

Abstract

The present invention relates to a reinforcing device for a beam structure including a reinforcing member which includes a beam accommodation unit accommodating at least a lower area of the beam structure and is uplifted in order for at least a partial section in the longitudinal direction to elastically press the beam structure upward, and a stiffening force control unit which is installed on both sides of the longitudinal direction of the reinforcing member and fixes the reinforcing member to the beam structure. Therefore, the present invention reinforces both the lower part and the side surface of the beam structure and improves capability of the beam structure.

Description

{Reinforcing Device of Beam Member}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a beam strengthening apparatus, and more particularly, to a beam strengthening apparatus having an improved structure that can reinforce the bottom and side surfaces of a beam structure.

Generally, the beam structure of a building does not sag at the fixed end on both sides in the longitudinal direction, but deflection occurs due to dead load and live load in the longitudinal middle region. The deflection of such a beam structure gradually increases according to the degree of the age of the building. Therefore, in the case of the old beam structure, cracks and other damages occur in the middle area in the longitudinal direction, and eventually the structure collapses from the beam structure.

Therefore, reinforced structures should be reinforced in order to prevent safety accidents such as building collapse unless the building is reconstructed. As a method of reinforcing the beam structure, the lower part of the beam structure may be reinforced with a temporary column member such as a steel pipe, or a concrete column structure may be additionally constructed. However, such a column reinforcing shape has a problem that it is not preferable because the beam structure occupies an inner space formed in the ceiling of the building.

The reinforcement method of the other beam structure is a form in which the lower part of the beam structure is supported by the straight reinforced steel. The reinforcement of the beam structure by the straight type reinforcing steel is a simple reinforcing type, and since it has insufficient resistance against dead and live loads, When the period elapses, there is also a problem that deflection occurs in the reinforced steel.

In order to solve such a problem, Korean Patent Registration No. 10-0352646 discloses a technique of "strengthening and strengthening a structural load carrying capacity using an elastic beam". As shown in FIG. 1, this technique reinforces the lower portion of the beam structure A by using the arched elastic beam 101, and the arch structure elastically lifts the longitudinal intermediate region of the beam structure A Thereby reinforcing the beam structure (A) and having resistance against dead load and live load, thereby increasing the load bearing capacity of the beam structure (A).

However, in the conventional technique of reinforcing a beam structure, the elastic beam supports the lower surface of the beam structure, and the beam is not reinforced on the side surface of the beam structure.

Therefore, there is a problem that the load applied to the lateral direction of the beam structure can not be reinforced between the dead load and live load transmitted to the beam structure and the upward beam of the elastic beam.

In addition, if the upward pressing force of the elastic beam acts on the beam structure more than necessary, there is a problem that the beam structure is liable to generate side effects and collapse.

As a result, there is a problem that safety against side breakage and collapse of the beam structure can not be assured.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a beam strengthening apparatus that can reinforce the bottom and side surfaces of a beam structure and improve the load-bearing capacity of the beam structure.

According to the present invention, there is provided an apparatus for reinforcing a beam structure according to the present invention, the apparatus having a repair section for receiving at least a lower section of the beam structure, wherein at least a part of the longitudinal section is upwardly raised A reinforcing member formed in a shape; And reinforcement adjusting means provided on both sides in the longitudinal direction of the reinforcement member to bind the reinforcement member to the reinforcement member such that the reinforcement member is adjustably tiltable.

Here, it is preferable that the length of the reinforcing member has an arc shape as a whole.

At this time, the reinforcement adjusting means may be provided in the form of a turnbuckle in which both longitudinal sides of the reinforcement member are fixed to the beam structure and the reinforcement member.

Alternatively, the bolt tightening means may be provided in the form of an anchor bolt having a female screw member which is fixedly embedded in the lower portion of the beam structure and a male screw member which is inserted through the reinforcing member to be adjustable in length on the female screw member.

And the reinforcing member is preferably a U-shaped or H-shaped steel.

On the other hand, both side surfaces of the maintenance part of the reinforcing member have a lower pressing plate portion contacting both side surfaces of the lower region of the beam structure, and an upper pressing plate portion contacting both side surfaces of the upper region of the beam structure; And a side pressing means for pressing the upper upper platen portion to both side surfaces of the upper region of the beam structure.

It is preferable that the upper plate portion is relatively movably coupled to the side surface of the beam structure with respect to the lower plate portion.

A plurality of guide holes spaced from each other along the longitudinal direction of the reinforcing member are formed on the lower plate of the lower plate, and guide protrusions are formed on the outer plate of the upper plate corresponding to the guide holes.

The side pressurizing means includes a pressurizing rod penetrating the upper upper platen and the upper region of the girder structure in the width direction of the girder structure and having a male thread on at least both longitudinal outer circumferential surfaces of the girder structure, And a pressure nut which is fastened to the male screw of the pressure bar.

In addition, it is effective that the side pressurizing means is provided in a 2/3 height region of the distance from the intermediate height region of the beam structure A to the upper portion of the beam structure.

In addition, it is effective that a washer is interposed between the upper pressure plate portion and the pressure nut.

It is more preferable that a measuring means for measuring the stiffness of the reinforcing member with respect to the beam structure is provided at the upward protruding portion of the reinforcing member.

At this time, the measurement means may include a measurement opening formed on the plate surface of the reinforcing member by a predetermined length, measurement patterns formed in the longitudinal direction of the measurement opening on the lower side edge of the measurement opening, It is more effective that the one end is fixed to one longitudinal side of the measurement opening and the free end has a measurement piece located in any one of the measurement patterns according to the degree of binding of the reinforcement means .

It is more preferable that the measurement piece is formed by cutting and bending the reinforcing member flat surface of the measurement opening region.

According to the present invention, there is provided a beam structure reinforcing apparatus capable of reinforcing the bottom and side surfaces of a beam structure and improving the load-bearing capacity of the beam structure.

1 is a perspective view of a conventional beam strengthening apparatus,
2 is a perspective view of a beam strengthening apparatus according to the present invention,
Fig. 3 is a front view for explaining an installation state of the beam strengthening apparatus of Fig. 2,
Fig. 4 is a perspective view of one side region of the beam strengthening apparatus of Figs. 2 and 3,
5 is a perspective view of one side region of a beam strengthening apparatus according to another example of the present invention,
6 is a cross-sectional view of a beam strengthening means area of a beam strengthening apparatus according to another example of the present invention,
FIG. 7 is a perspective view of a beam strengthening apparatus according to another embodiment of the present invention, viewed from the bottom; FIG.
8 is a front sectional view for explaining the operation of the beam structure reinforcing apparatus of Fig.
9 is a perspective view of a beam strengthening apparatus according to another embodiment of the present invention,
10 is a sectional view of the beam strengthening apparatus of Fig. 9;

2 to 4, a beam strengthening apparatus 1 according to the present invention includes a reinforcing member 10 for reinforcing the beam structure A, beams for adjusting the beam strength of the reinforcing member 10, And a force adjusting means (20).

The reinforcing member (10) has a maintenance part (11) for accommodating at least a lower area of the beam structure (A) and a reinforcing part (13) at least a part of which is upwardly raised in the longitudinal direction.

It is preferable that the maintenance use portion 11 is formed by the inner space of the reinforcing member 10 while being provided as a U-shaped steel opening upward. At this time, as shown in FIG. 5, the maintenance part 11 can also be formed by providing the reinforcing member 10 as an H-shaped steel having a space capable of accommodating the beam structure A in the upper and lower inner sides. It is preferable that the width of the inner side surface of the maintenance use portion 11 corresponds to the width of the beam structure A and the depth corresponds to the height of the beam structure A. [ As a result, the maintenance portion 11 can receive the lower and both sides of the beam structure A.

The reinforcing portion 13 may be formed in an upwardly raised shape in a section corresponding to an intermediate region of the entire longitudinal length of the reinforcing member 10. More preferably, the reinforcing portion 13 has a structure in which the entire length of the reinforcing member 10 is elevated in an arc shape to improve the manufacturing convenience of the reinforcing member 10 and the strength of the reinforcing member 10 . The reinforcing portion 13 raised upward in the arc shape generates an elastic upward pressing force in the binding process for bringing both longitudinal end regions of the reinforcing member 10 into close contact with both sides in the longitudinal direction of the beam structure A, A) to the deflection.

The reinforcing member 20 is provided at both end regions of the reinforcing member 10 in the longitudinal direction so that the reinforcing member 10 is tightly coupled to the reinforcing structure A. For this purpose, as shown in FIGS. 2 to 5, the reinforcing means 20 may be provided in the form of a turnbuckle in which both longitudinal sides of the reinforcing member 20 are fixed to the reinforcing member 10 and the beam structure A, respectively.

Here, the turnbuckle-like reinforcement adjusting means 20 includes a pair of connecting bars 21 having one side in the longitudinal direction fixed to the supporting structure A and the reinforcing member 10 and having a male screw portion on the outer circumferential surface, And a tightening buckle 23 having a female screw hole which is fastened to the male screw portion of the connecting bar 21 on both sides so as to be interposed between the connecting bars 21.

When the tightening buckle 23 is rotated in one direction, the connecting bars 21 approach each other to bring the reinforcing member 10 into close contact with the side of the beam structure A, and the tightening buckle 23 are rotated in the opposite direction, the connecting bars 21 are spaced apart from each other to separate the reinforcing member 10 from the beam structure A. Therefore, by adjusting the degree of rotation of the tightening buckle 23, it is possible to adjust the strength of the reinforcement member 10. It is effective that a pair of the turnbuckle type reinforcement members 20 are provided on both sides of the longitudinal direction of the beam structure A and the reinforcing member 10 and on both sides in the width direction. Of course, the number of reinforcing means 20 can be increased or decreased depending on circumstances.

At this time, the connecting bar 21 fixed to the beam structure A of the two connecting bars 21 is fixed to the beam structure A by fastening an anchor bolts, And fixing the connecting bar 21 to both ends of the fixing bar after fixing the fixing bar to the through hole.

Of course, the turnbuckle-like reinforcement adjusting means 20 may be provided in various turnbuckle shapes in addition to the turnbuckle shape described above.

Alternatively, the bolt tightening means 20 may be provided as a bolt tightening means 20 in the form of an anchor bolt, as shown in Fig.

The anvil bolt-type bolt tightening means 20 includes a female screw member 25 that is fixedly embedded at both lower sides of the longitudinal direction of the beam structure A and a female screw member 25 which penetrates through the lower both sides in the longitudinal direction of the reinforcing member 10, May be provided in the form of an anchor bolt having a male screw member (27) which is adjustably connected to the female screw (25). The stiffening force can be adjusted by adjusting the strength with which the reinforcing member 10 elastically comes into close contact with the stiffening structure A, as shown by the imaginary line in Fig. 6 depending on the degree of engagement of the male screw member 27 .

Of course, the female screw member 25 may be embedded in the upper portion or the lower portion of both sides of the longitudinal direction of the beam structure A. However, the male screw member 27 may be fixed to the reinforcing member And a structure in which the male screw member 27 and the female screw member 25 are fastened to each other by forming a flange portion having a bolt passage hole through which the male screw member 27 can pass, (20) may be provided.

As shown in FIGS. 3A and 3B, the beam structure reinforcing apparatus 1 according to the present invention having such a structure is configured such that the lower region of the beam structure A is supported on the maintenance area 11 in the longitudinal middle region of the reinforcing member 10 After the reinforcing member 10 is disposed so as to be accommodated in the reinforcing member 10 as shown in FIG. 3B and FIG. 3C, When the reinforcing member 10 is bound to the beam structure A as above, the upwardly raised reinforced portion 13 of the reinforcing member 10 is elastically pressed upward to apply resistance to deflection of the beam structure A. As a result, the deflection of the beam structure (A) is reinforced to increase the load-bearing capacity.

Particularly, the bottom portion and the side surface of the beam structure A are entirely reinforced by receiving the lower and both side surfaces of the beam structure A. As a result, safety against side breakage and collapse of the beam structure A is secured.

7 and 8, the beam reinforcing apparatus 1 according to the present invention further includes a measuring means 30 for measuring the strength of the reinforcing member 10, The operator or the manager can easily grasp the degree of reinforcement of the beam structure A by the operator.

The measurement means 30 includes a measurement opening 31 formed in a lengthwise direction of the reinforcing member 10 on the upwardly raised portion of the reinforcing member 10 and a measurement opening 31 formed in a lengthwise direction of the measurement opening 31, And one end portion is fixed to one longitudinal side of the measurement opening 31 and a free end portion is fixed to one side of the measurement opening 31 and the degree of engagement of the reinforcing means 20 And a measurement piece positioned in any one of the measurement patterns 35 according to the measurement pattern 35. [

At this time, it is preferable that the measuring piece 33 is formed by cutting out the plate surface of the reinforcing member 10 in the region of the measuring opening 31, and the upwardly curved shape may be curved in the form of an arc or a triangle. The bent upper end of the measuring piece 33 is brought into contact with the lower surface of the beam structure A and the free end of the measuring piece 33 is pressed downward in accordance with the degree of binding of the beam strength adjusting means 20, Area.

This measuring piece may be provided in an upwardly curved form using a separate plate as the case may be, and one end of the measuring piece may be fixed to one side of the measuring opening 31 in the longitudinal direction by welding or using a separate coupling part.

The measurement patterns 35 may be formed with numerals that increase toward the opposite side with the first free end side of the measurement piece free from the load of the beam structure A, . The measurement pattern 35 is formed by pressing the upwardly raised reinforced portion 13 of the reinforcing member 10 against the beam structure A to elastically press the beam structure A upward, 20 may be a measurement pattern 35 formed by precisely structurally and precisely calculating the degree of braking force control and may be a measurement pattern 35 that can be used to confirm the proper braking force at the construction site have.

Of course, the measuring means 30 may be provided by installing a separate measuring device on the reinforcing member 10. [ In this case, it is possible to perform more robust reinforcement measurement.

This makes it possible to construct the beam strengthening apparatus 1 while easily checking the appropriate beam strength of the reinforcing member 10 with respect to the beam structure A and the corresponding beam strength adjusting strength without providing any additional measuring equipment It can control and maintain the strength of the beam.

FIG. 9 is a perspective view of a beam strengthening apparatus according to another embodiment of the present invention, and FIG. 10 is a cross-sectional view of the beam strengthening apparatus of FIG. As shown in these figures, the beam reinforcing apparatus 1 according to the present embodiment includes the structure and the structure of the above-described embodiments, while both side surfaces of the maintenance portion 11 of the reinforcing member 10 are connected to the lower pressure plate portion (51) and an upper pressure plate portion (52). And a side pressing means 60 for pressing the upper upper pressing plate portion 52 toward the side of the beam structure A. [

When the reinforcing member 10 is a U-shaped or H-shaped steel, the lower pressing plate portion 51 is formed by both side portions of the upper open side of the section steel accommodating the beam structure A, So as to abut both sides of the lower region.

The upper pressing plate portion 52 is engaged with the lower pressing plate portion 51 by the side pressing means 60 in a state of being accommodated in contact with both side surfaces of the lower region of the supporting structure A, Both sides of the beam structure A are constrained and reinforced by pressing the both side upper regions.

At this time, the upper pressure plate portion 52 is relatively movable with respect to the lower pressure plate portion 51 to the side surface of the beam structure A so as to be in contact with the beam structure A entirely during the pressing action by the side pressing means 60 A plurality of guide holes 51a spaced apart from each other on the plate surface of the lower pressing plate portion 51 are formed in the longitudinal direction and the outer side of the upper pressing plate portion 52 corresponding to the guide holes 51a And by forming the guide protrusions 52a on the flat surface. Of course, the positions of the guide hole 51a and the guide projection 52a may be reversed.

The side pressurizing means 60 includes a pair of upper presser plate portions 52 and a pressurizing bar 52 which penetrates the upper region of the beam structure A in the width direction of the beam structure A and has at least a male thread on the outer circumferential face And a pressing nut 63 which is fastened to the male thread of the pressure bar 61 at the outer side of the upper upper pressing plate portion 52. It is preferable that a washer 65 is interposed between the upper pressing plate portion 52 and the pressing nut 63 so as to maximize the fastening force of the pressing nut 63 and prevent the pressing nut 63 from being disengaged arbitrarily.

The side pressing means 60 is preferably installed so as to penetrate in the width direction of the beam structure A in a region not in contact with the reinforcing bars c embedded in the inside of the beam structure A. In particular, (60) is located at a height (h1) of 2/3 of the distance (h) from the middle height (m) of the beam structure A to the top of the beam structure It is preferable to be installed so as to penetrate. The mounting position of the side pressurizing means (60) maximizes lateral reinforcement of the beam structure (a) as an optimal lateral reinforcement position for deflection of the beam structure (A).

The beam strengthening apparatus 1 according to the present embodiment having such a construction reinforces the deflection of the beam structure A by the upwardly raised reinforced portion of the reinforcing member 10 as in the above embodiments, At the same time, reinforcement of the lower portion and the side surface of the beam structure (A) can prevent both the lower portion and the side breakage of the beam structure (A), thereby ensuring sufficient safety against collapse.

In addition, as shown in Fig. 10, both side surfaces of the beam structure A are firmly fixed by the upper pressure plate portion 52 and the side pressing means 60, thereby maximizing the side reinforcement of the beam structure A, The stability of the beam structure (A) can be ensured even when an unnecessary excessive moment occurs.

INDUSTRIAL APPLICABILITY As described above, according to the present invention, a beam structure reinforcing apparatus capable of reinforcing the bottom and side surfaces of a beam structure and improving the load-bearing capacity of the beam structure is provided.

10: reinforcing member 11: maintenance part
20: Strength adjusting means 30: Measuring means
33: Measurement piece 35: Measurement pattern
51: lower pressure plate portion 52: upper pressure plate portion
60: side pressing means

Claims (18)

In the beam structure reinforcing apparatus,
A reinforcing member having a repair part for receiving at least a lower area of the beam structure and at least a part of the length in the longitudinal direction being formed in an upwardly raised shape so as to elastically press the beam structure upward;
And reinforcing strength adjusting means provided on both sides of the reinforcing member in the longitudinal direction to bind the reinforcing member in a strength-adjustable manner to the beam structure,
And the side surfaces of both sides of the maintenance part of the reinforcing member are in contact with both side surfaces of the lower region of the beam structure and the lower pressure plate portion contacting the both sides of the upper region of the beam structure, Having an upper pressing plate portion that is coupled to the lower plate;
Further comprising a side pressing means for pressing the upper upper platen toward both side surfaces of the upper region of the beam structure. The method according to claim 1,
Wherein the reinforcing member has an arc shape as a whole. 3. The method of claim 2,
Wherein the beam strengthening means is provided in the form of a turnbuckle in which both longitudinal sides thereof are fixed to the beam structure and the reinforcing member. 3. The method of claim 2,
Wherein the reinforcement member is provided in the form of an anchor bolt having a female screw member embedded and fixed in the lower portion of the beam structure and a male screw member penetrating the reinforcing member to be adjustable in length on the female screw member. Device. 3. The method of claim 2,
Wherein the reinforcing member is a U-shaped steel. 3. The method of claim 2,
And the reinforcing member is provided as an H-shaped steel. delete delete 7. The method according to any one of claims 1 to 6,
Wherein a plurality of guide holes spaced apart from each other along a longitudinal direction of the reinforcing member are formed on a plate surface of the lower plate, and a guide protrusion is formed on an outer plate surface of the upper plate corresponding to the guide hole. Reinforcing device. 10. The method of claim 9,
The side pressing means
A pressure bar penetrating the upper upper pressure plate portion and the upper region of the beam structure in a width direction of the beam structure and having at least a male thread on both outer peripheral surfaces in the longitudinal direction,
And a pressing nut which is fastened to the male thread of the pressing rod outside the upper upper pressing plate portion. 11. The method of claim 10,
Wherein the side pressing means is provided at a height of 2/3 of the distance from the middle of the vertical height of the beam structure (A) to the top of the beam structure. 11. The method of claim 10,
Wherein a washer is interposed between the upper platen and the pressing nut. 7. The method according to any one of claims 1 to 6,
And a measuring means for measuring the stiffness of the reinforcing member with respect to the beam structure is provided at an upwardly raised portion of the reinforcing member. 14. The method of claim 13,
The measuring means
A measurement opening formed on the plate surface of the reinforcing member by a predetermined length,
Measurement patterns formed in the longitudinal direction of the measurement opening on the lower side edge of the measurement aperture,
One end of the longitudinal direction is curved upwardly and one end is fixed to one side of the longitudinal direction of the measurement opening and the free end is located in one of the measurement patterns according to the degree of engagement of the reinforcement means Wherein the beam structure reinforcing member has a measurement piece. 15. The method of claim 14,
Wherein the measurement piece is formed by cutting and bending the reinforcing member plate surface of the measurement opening region. 7. The method according to any one of claims 1 to 6,
And a measuring means for measuring the stiffness of the reinforcing member with respect to the beam structure is provided at an upwardly raised portion of the reinforcing member. 17. The method of claim 16,
The measuring means
A measurement opening formed on the plate surface of the reinforcing member by a predetermined length,
Measurement patterns formed in the longitudinal direction of the measurement opening on the lower side edge of the measurement aperture,
One end of the longitudinal direction is curved upwardly and one end is fixed to one side of the longitudinal direction of the measurement opening and the free end is located in one of the measurement patterns according to the degree of engagement of the reinforcement means Wherein the beam structure reinforcing member has a measurement piece. 18. The method of claim 17,
Wherein the measurement piece is formed by cutting and bending the reinforcing member plate surface of the measurement opening region.

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