KR101878861B1 - SEISMIC RETROFIT FRAME FOR OPENINGS OF BUIlDING - Google Patents

Abstract

The present invention relates to a seismic reinforcement body closely adhered to an opening of a building, comprising: a corner frame (10), which is a square pipe bent at a right angle, having an action hole (15) cut off at an end part of both sides; and a connection member, which is a square pipe coupled to an opening part of both ends of the corner frame (10), having an inclined hole (25) cut off at an end part of both sides. While an action rod (40) coupled to an overlapped portion between the action hole (15) and the inclined hole (25) moves along the action hole (15), the entire reinforcement body is extended to allow the corner frame (10) and the opening part of a structure to be closely adhered to each other. Accordingly, close adhesion and high integration between a structure to be reinforced and the reinforcement body are realized, thereby maximizing seismic reinforcement effect of the opening part of the structure. Moreover, the reinforcement body is able to be modified in accordance with the size of the opening part of the structure, thereby allowing flexible construction for the opening of various sizes.

Description

[0001] SEISMIC RETROFIT FRAME FOR OPENINGS OF BUILDING [0002]

The present invention relates to an anti-seismic reinforcement for an opening of a structure, comprising: a corner frame bent at right angles and having an active hole (15) cut at both ends thereof; a corner frame (10) And an active rod 40 coupled to the overlapped portion between the active hole 15 and the inclined hole 25 is formed along the active hole 15 The connecting member 20 is pulled out of the corner frame 10 and the entire reinforcing member is expanded so that the corner frame 10 and the opening of the structure can be closely contacted.

In general structural structures, openings such as doors or windows are formed to perform access, mining and ventilation functions. In addition to these apparent openings, all the parts except structural members such as pillars, beams, and slabs can be referred to as openings , Especially those that are not fully integrated with the structural material, such as masonry walls, are mechanically considered to behave as openings.

Such openings can only serve as structural weak points in the horizontal external force due to the earthquake. There have been various attempts to reinforce the openings of the existing structures, and related arts include the Japanese Patent 1379892.

Typical examples of structural reinforcement for coping with earthquake load include outer wall reinforcement consisting of a coarse wall and inner window. In a simple and effective way, It is possible to consider a method of constructing a truss structure in which beams or slabs, which are vertical members and horizontal members, are bound to the workpiece.

However, in such a system, since the reinforcing material can only be overlapped with the openings on the outer side of the window, there is a problem that the basic functions of the building such as mining and ventilation are seriously damaged as well as the appearance. Thus, as described in Patent No. 1379892 , A method of installing a rectangular reinforcing member conforming to the shape of an opening of a building to be reinforced is generally used.

In the conventional structure open-end seismic retrofitting body including the patent No. 1379892, a rectangular reinforced body is basically provided in close contact with the inside of the opening to construct a rectangular frame closed inside the opening on the side surface, And the close integration between the openings of the structure can be considered as the key to the enhancement effect.

In the reinforcement for the openings of the existing structures, the method of pre-fabricating the reinforcement bodies conforming to the openings and joining them at the site is to carry out the transportation of the completed reinforcement bodies even if the operation conditions are unrealistic, Damage to the structure itself is inevitable in the process of movement in the building, and in the conventional structure open-end seismic reinforcement including the patent No. 1379892, the corner frame 10 constituting the vertex of the rectangular reinforcement, A method of separating and assembling the connecting member 20 constituting the sides and assembling in the field is applied.

That is, as shown in Fig. 1, by constructing a rectangular reinforcing member having a shape matching with the opening on the side by combining the corner frame 10, which is a rectangular pipe bent at right angles, and the connecting member 20, The corner frame 10 is first attached to the corner portion of the opening so that the opening of the structure and the reinforcement member can behave as a single body and then the corner frame 10 is inserted into the corner frame 10 in a state where both ends of the connecting member 20 are inserted into the corner frame 10. [ 10 is filled with a filler such as non-shrinkable mortar to form a rectangular frame integrated with the upper and lower horizontal structures 92 and left and right vertical structures 91 of the present structure.

However, such conventional assembled reinforcing members have various problems as follows.

It is very difficult to install the corner frame 10 and the connecting member 20 which are steel pipes in correct positions at the correct positions on the reinforcing point and in particular because of the characteristics of the building structure, It is not possible to expect a high level of mechanical assembly level on the surface of the vertical structure 91 so that the corner frame 10 and the horizontal structure 92 and the vertical structure 91 can achieve structural integration between the reinforcement and the structure There is a limitation that it can not be closely adhered.

By joining the corner frame 10, the horizontal structure 92 and the vertical structure 91 with the anchors 19, integration between the structure and the reinforcement body can be achieved based on the shear force of the anchor 19, , Which is a factor for eroding the seismic strengthening effect through the reinforcement.

1, reinforcement work of the structure openings surrounded by the upper and lower horizontal structure 92 and the left and right vertical structures 91 is generally performed by gravity in the room. As a result, A work error must be generated in the process of attaching the reinforcing member 10 to the horizontal structural body 92 and the vertical structural body 91. This causes a deviation of the rigid position of the connector 20, But also severely reduces the integration and reinforcement effect between the reinforcement and the structure.

SUMMARY OF THE INVENTION The present invention has been developed in view of the above-mentioned problems, and has as its object to provide a pipe structure having openings at both ends and being bent at right angles and fixed to a junction between the lower horizontal structure 92 and the left and right vertical structures 91 on the rectangular opening of the structure And a connecting member (20) having both ends joined to the open end of the corner frame (10) as a straight pipe body connecting the corner frames (10) and the corner frames (10) An active hole 15 orthogonal to the central axis of the corner frame 10 is formed at an end of the corner frame 10 and an inclined hole 25 is formed at an end of the connecting member 20, And the connecting rod 20 is coupled to the corner frame 10 so that the active rod 40 having the shaft hole 41 drilled in the state where the active hole 15 and the inclined hole 25 are overlapped, 15) and the inclined hole (25), and a U-shaped bent plate The driving plate 30 to which the yarn 35 is coupled is coupled to the portion of the corner frame 10 where the active hole 15 is formed and the shaft pin 33 passing through the coupling portion of the corner frame 10 of the driving plate 30 The end of the shaft pin 33 is inserted into the shaft hole 41 of the operation rod 40 and the drive plate 30 is separated from the corner frame 10 when the drive screw 35 is rotationally press- The reinforcing member 40 pushes the inclined hole 25 while moving along the active hole 15 so that the connecting member 20 is pulled out of the corner frame 10.

The driving screw 35 is rotatably and press-fitted into the driving screw 35 so that the driving screw 35 is freely rotatably mounted on the distal end of the driving screw 35, And the plate 37 is in close contact with the corner frame 10. The corner frame 10 or the connecting member 20 has an injection hole 80 formed in the corner frame 10 And the connecting material 20 are fixed to the opening of the structure, the filler is injected through the injection hole 80 and hardened.

According to the present invention, it is possible to maximize the effect of the seismic strengthening of the opening of the structure by closely adhering and highly integrated between the reinforcing structure and the reinforcing member, and the reinforcing member can be deformed in the field according to the size of the opening of the structure. It is possible to perform the elastic construction with respect to the opening of the frame.

Particularly, it is not necessary to previously attach the corner frame 10 constituting the reinforcing member to the horizontal structural body 92 or the vertical structural body 91. In a state where the entire reinforcing body is assembled in a reduced state, The reinforcing member can be closely attached to the structure by fixing the reinforcing member to the structure by extending the width and height of the reinforcing member after the standing of the corner frame 10 and thus preventing the occurrence of the work error frequently pre- And it is possible to remarkably improve the convenience of the work and the work safety.

Fig. 1 is a schematic view of a conventional structure opening reinforcing member
2 is a perspective view of the present invention
3 is an exploded perspective view of the main part of the present invention
Fig. 4 is an explanatory diagram
5 is a perspective view of the present invention,
Figure 6 is a schematic representation of a completed embodiment of the present invention
7 is a perspective view of an embodiment of the present invention to which a reinforcing plate is applied.
8 is a perspective view of an embodiment of the present invention to which a shape-

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

2 is a perspective view showing the appearance of a main structure of the present invention. As shown in the figure, the present invention is a reinforced steel body having a rectangular shape as a whole, Shaped corner frames 10, and both ends of these corner frames 10 are connected to each other by a straight connecting member 20 to reinforce the openings.

That is, a plurality of corner frames 10, each of which is open at both ends and bent at right angles and fixed to the junction between the lower horizontal structure 92 and the left and right vertical structures 91 on the rectangular opening of the structure, As shown in Figs. 2 and 3, a straight pipe body connecting the corner frame 10 is composed of a connecting member 20 having both ends thereof joined to the open end of the corner frame 10. As shown in Figs. 2 and 3, And the driving plate 30 is coupled to the connecting portion between the corner frame 10 and the connecting member 20. The connecting member 20 is connected to the connecting member 20 by inserting the end of the connecting member 20 into the end portion of the frame 10,

The corner frame 10 and the connecting member 20 constituting the present invention are both tubular bodies having a rectangular cross section in which the inner shape of the transverse sectional corner frame 10 coincides with the outer shape of the connecting member 20, Are inserted into the end portions of the corner frame 10, that is, the inside ends of the L-shaped bent parts of the tubes, the corner frame 10 and the connecting member 20 are interconnected.

3, an active ball 15, which is perpendicular to the center axis of the corner frame 10, is formed at the end of the corner frame 10, and this active ball 15 is formed in an L-shaped corner frame 10 Respectively, in the same manner.

An inclined hole 25 is formed at an end of the connecting member 20 so as to be inclined with respect to the central axis of the connecting member 20. The inclined hole 25 is formed at an end of the connecting member 20, The holes 25 have the same width and the inclined holes 25 of the linking member 20 are formed symmetrically with both ends of the linking member 20 with respect to the center of the linking member 20.

4, in the case of the connecting member 20 horizontally installed at the lowermost end in the drawing, the inclined hole 25 on the left side is inclined upward in the left direction and the inclined hole 25 on the right side is inclined in the left- The inclined holes 25 are formed at both ends of the connecting member 20 so that the inclined holes 25 on both sides of the connecting member 20 are symmetrical with respect to the center point of the connecting member 20 And inclined holes 25 are formed at both ends of the four connecting members 20 adjacent to the four sides of the structure opening in the same manner.

The connection between the corner frame 10 and the connecting member 20 is performed by inserting the end of the connecting member 20 into both end openings of the corner frame 10 which is a right angle bending pipe having both ends opened as described above, The connecting rod 20 is coupled to the corner frame 10 so that the active rod 40 having the shaft hole 41 drilled in the state where the active hole 15 and the inclined hole 25 are overlapped with each other is inserted into the active hole 15 and the inclined hole 25, respectively.

At this time, the diameter of the active bar 40 coupled to the overlapping portion of the active ball 15 and the inclined ball 25 is the same as the width of the active ball 15 and the inclined ball 25, The width of the inclined hole 25 and the diameter of the active bar 40 are set to be equal to each other so that the overlapped portion of the active hole 15 and the inclined hole 25 is formed in a rhombus And the cross section of the active bar 40 forms a circle which is in contact with the rhombus.

3, a drive plate 30, which is a U-shaped plate member and to which a driving screw 35 is coupled at a central portion thereof, is coupled to a portion where the active ball 15 is formed in the corner frame 10, A drive screw 35 is fastened to the female screw, and a drive screw 35 is fastened to the female screw, and the drive screw 35 is fastened to the female screw, And the distal end of the driving screw 35 is located inside the driving plate 30. The driving plate 30 is fixed to the lower end of the driving plate 30,

The shaft pin 33 penetrating through the coupling portion of the corner frame 10 of the drive plate 30 is engaged with the shaft pin 33 and the distal end of the shaft pin 33 is inserted into the shaft hole 41 of the active rod 40, A separate shaft hole 41 may be formed at both ends of the active rod 40 or the active rod 40 may be formed as a tube to penetrate the active rod 40 in the axial direction concentrically The driving shaft 30 and the actuating rod 40 can be freely moved as the shaft pin 33 is coupled to the perforated portion of the U-shaped driving plate 30, And is connected in a rotatable state.

Here, when the distance between the two spaced-apart plates of the drive plate 30, the length of the active bar 40, and the width of the corner frame 10 coincide, these structures can be operated in close contact with each other, The driving plate 30 can be prevented from leaking through the active ball 15 and the sealing operation is not necessary even in the filling material injection operation to be described later.

The connecting member 20 is inserted into the corner frame 10 and the active ball 15 of the corner frame 10 and the inclined hole 25 of the connecting member 20 are overlapped with each other, 4 through the configuration in which both ends of the active bar 40 are connected to the drive plate 30 and the drive screw 35 is coupled to the drive plate 30, The driving plate 30 is separated from the corner frame 10 and the action rod 40 moves along the active ball 15 to urge the inclined hole 25 so that the connecting member 20 is rotated, Is drawn out from the corner frame 10.

The pulling out or pulling operation of the connecting member 20 from the corner frame 10 does not constitute an integral mechanical device inside the corner frame 10 or the connecting member 20 and the active ball 15, As shown in the lower part of Fig. 4, as the linking member 20 is pulled out from the corner frame 10, four L-shaped corner frames 10 and four The horizontal length and the vertical height of the whole seismic strengthening body constituted by the connecting member 20 and forming the rectangular frame are enlarged.

4, as the driving screw 35 coupled to the driving plate 30 is rotated and press-fitted, the distal end of the driving screw 35 is pressed against the corner frame 10, The driving plate 30 coupled with the driving plate 30 and the driving plate 30 coupled with the driving plate 30 is moved in the direction away from the corner frame 10 to the inside of the opening of the structure, The connecting member 20 is pulled out of the corner frame 10 as the operating rod 40 presses the inclined hole 25. As a result,

Therefore, as shown in the lower portion of Fig. 4, the entire reinforcing member composed of the four corner frames 10 and the four connecting members 20 is enlarged in a state of being shown in a solid line in the drawing .

In addition to the advantage that the same reinforcement can be applied to the structure openings of various specifications, it is possible to enlarge the reinforcing body by increasing the reinforcing body once in the reduced position at the opening portion of the reinforcing structure, It is possible to fix the magnetic force through the close contact between the corner frame 10, the horizontal structure 92 and the vertical structure 91 without any additional fixing means such as a door or the like, thereby remarkably improving the ease of construction and the structural stability.

The damage of the corner frame 10 which may be generated by pressing the end of the driving screw 35 to the corner frame 10 during the drive process of the drive plate 30 by press- It is also possible to mount a compression plate 37 coupled to the distal end of the drive plate 30 of the drive screw 35 such that the drive screw 35 is freely rotatable as shown in Figures 3 and 4 .

3, the compression plate 37 is formed at its center with a receiving portion and a recessed portion to which the end of the drive screw 35 is coupled, and both side ends of the compression plate 37 are fixed to both sides of the drive plate 30 The driving screw 35 can be stably reciprocated within the driving plate 30 without being rotated with the driving screw 35. As shown in Figure 4, Accordingly, the pressing plate 37, which is not the end of the driving screw 35, is brought into close contact with the corner frame 10, so that the corner frame 10 can be prevented from being damaged.

In the present invention, the injection hole 80 is formed in the corner frame 10 or the connecting member 20 so that the corner frame 10 and the connecting member 20 are fixed to the opening of the structure, By injecting and hardening the filler, the structure of the reinforcing member can be further strengthened.

2 and 5, an injection port communicating with the inside and outside of the coupling member 20 is drilled in the central portion of the uppermost connecting member 20, a liquid filler such as non-shrinkable mortar is injected through the injection port, Curing the filled filler to form a rigid composite structure reinforcement body in which the filler is hardened inside the rectangular frame composed of the mandrel.

5, when the curing of the filler material is completed, the shaft pin 33 is moved to the driving plate 30 and the active rod 40 Even when the driving plate 30 is detached from the corner frame 10 after being separated from the shaft hole 41 of the active rod 40, the active rod 40 can be firmly fixed in a state of being embedded in the filling material, The drive plate 30, the drive screw 35, and the pressing plate 37 (Fig. 7), which are detached from the corner frame 10, are held firmly fixed and fixed between the corner frame 10 and the connecting member 20, And the shaft pin 33 may be recycled at the subsequent installation site.

6, the horizontal structure 92 and the vertical structure 91 of the opening of the structure are magnetically coupled to each other by a magnetic force, as shown in FIG. 6, so as to freely expand the reinforcing member composed of the corner frame 10 and the connecting member 20. [ It is possible to securely fix and tighten the anchor 19. It is possible to remarkably improve the ease of installation in the seismic reinforcement of the opening of the structure, The damage of the structure can be minimized.

7, a shaft hole 41 for connecting the active rod 40 and the drive plate 30 is formed in the active rod 40 of the present invention. By using the shaft hole 41 for connecting the active rod 40 and the drive plate 30, The reinforcing plate 50 in which the fastening holes 51 are drilled at both ends is inserted into the axial hole of the active rod 40 coupled to the opposite ends of the corner frame 10 41 to reinforce the entire reinforcing member.

In the prior art, the reinforcement is further reinforced. In particular, when reinforcing the reinforcement through a diagonal member at four corners of the rectangle reinforcing member where stress is concentrated, the reinforcing member itself is perforated. However, in the present invention, since the shaft hole 41 formed in the active rod 40 can be utilized, it is possible to reinforce the reinforcement member without further damage.

8, instead of the connecting member 20 having the entire length of each of the tubes formed therein, the weight of the connecting member 20 may be reduced by applying the connecting member 20 formed of the steel except for both ends. In this case, 80 are formed at the end portions of the corner frame 10 or the connecting member 20 so that filling of the filling material is performed for a total of four places.

10: Corner frame
15: Activity Ball
19: Anchor
20: Connector
25: inclined ball
30: drive plate
33: Pivot pin
35: Driving screw
37:
40: Activity bar
41: Slippery
50: reinforced plate
51: fastening hole
80: Injection ball
91: vertical structure
92: horizontal structure

Claims (3)

A plurality of corner frames 10 fixed to the junction between the lower horizontal structure 92 and the left and right vertical structures 91 on the rectangular opening of the structure as the respective tubular bodies opened at both ends and bent at right angles, And a connecting member (20) whose both ends are coupled to the open end of the corner frame (10), wherein the corner frame (10) is provided with a corner frame (10) An inclined hole 25 is formed at an end of the connecting member 20 so as to be inclined with respect to the central axis of the connecting member 20 and the connecting member 20 is fixed to the corner frame 10 The active rod 40 having the shaft hole 41 punctured in a state where the active hole 15 and the inclined hole 25 are overlapped is joined to the overlapping portion of the active hole 15 and the inclined hole 25 And a drive plate 30 to which a drive screw 35 is coupled at a central portion as a U-shaped bent plate is inserted into the active hole 15 of the corner frame 10, And a shaft pin 33 penetrating through a coupling portion of the corner frame 10 of the drive plate 30 is coupled with the shaft pin 33 inserted into the shaft hole 41 of the active rod 40, When the driving screw 35 is rotationally and press-fitted, the drive plate 30 is separated from the corner frame 10 and the active rod 40 moves along the active ball 15 to press the inclined hole 25, 20 is drawn out from the corner frame 10,
A drive shaft 35 is attached to a distal end portion of the drive plate 30 with a drive shaft 35 so that the drive shaft 35 is freely rotatably mounted on the drive shaft 35. As the drive shaft 35 is rotationally driven, Is tightly attached to the corner frame (10). delete delete

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