KR101328702B1 - Structure for reinforcing structure using bracing member - Google Patents

Abstract

The present invention provides a reinforcing structure for structures using a bracing member. The reinforcing structure for structures using a bracing member comprises vertical members, horizontal members, and bracing members which are inclined to be joined to the horizontal and vertical members, is hinged to the horizontal and vertical members with both ends at adjustable angles, and is adjustable in height. The joining angles and positions of the bracing members are adjusted based on the change of loads applied to a structure using the horizontal and vertical members which guide both ends of the bracing members to be moved in the horizontal or vertical direction and fixed at a predetermined position.

Description

STRUCTURE FOR REINFORCING STRUCTURE USING BRACING MEMBER}

The present invention relates to a reinforcing structure of a structure using a brace member, and more particularly to a reinforcing structure of a structure using a brace member that can be responded to the change of the load transmitted to the structure.

In general, the building structure may be composed of horizontal members such as girders, slabs, beams and vertical members such as columns.

In such a building structure, when the load transmitted to the horizontal member is increased, the load of the horizontal member is transferred to the vertical member due to the chain load transfer, thereby increasing the load on the vertical member. Accordingly, the load on the load can be reduced by increasing the size of the pillar, which is a vertical member, or by increasing the number of members constituting the pillar.

There are many reasons for the increased load on these horizontal members.

For example, the load burden may increase due to the expansion of existing structures such as increasing the number of floors or increasing the horizontal span. At this time, a reinforcement design will be required to reinforce the separate structure.

As another example, it may occur unexpectedly such that the upper structure is destroyed by an unexpected external impact load. In this case, because it is a sudden occurrence, it must be reflected in advance when designing the first structure.

The method of reinforcing the lower structure due to the conventional upper structure is to install the additional reinforcing member as a separate reinforcement design, or to consider the design from the beginning to change. This method has the disadvantage that it is not always possible to adjust the substructure, there is a problem that additional design cost and construction cost.

Therefore, there is a need for a structure of a lower structure that can always respond to variations in the upper structure.

The present invention has been proposed in order to solve the conventional problems as described above, the object of the aspect is that, in the case of changing the strength or position of the load applied on the upper part of the structure by expansion or remodeling, etc., without the addition of a separate structural member, An object of the present invention is to provide a reinforcement structure of a structure using a brace member that effectively responds to a changing load.

As a technical aspect for achieving the above object, the present invention, a horizontal member and a vertical member constituting the structure; And a reinforcing bracing member which is inclinedly coupled to the horizontal member and the vertical member and is hinged to both ends of the horizontal member and the vertical member so that an angle at which the coupling is adjusted is formed and is adjustable in length. The horizontal member and the vertical member is provided with a position adjusting portion for guiding the both ends of the reinforcing brace member to move in the horizontal direction or the vertical direction and to fix the position at a predetermined position, to the variation of the load applied to the structure According to the present invention provides a reinforcement structure of the structure using the brace member configured to change the angle and position of the reinforcing brace member is coupled.

Preferably, the reinforcing brace member, the body portion extending in the longitudinal direction; And a fixed coupler coupled to both ends of the body portion and having a diameter larger than the diameter of the body portion and having a coupling groove to which the fastening means is coupled.

Preferably, the position adjusting portion, the fitting groove formed in a shape corresponding to the fixing coupler in the horizontal member and the vertical member; and in communication with the fitting groove, formed in the longitudinal direction with a size corresponding to the fixing coupler A guide groove having a first guide groove and a second guide groove formed to open to the outside of the first guide groove and having a size corresponding to the body portion; And a through hole formed to be spaced apart from the horizontal member and the vertical member at predetermined intervals, in communication with the guide groove, and a fastening means inserted therethrough.

Preferably, the body portion, the first body having a fastening hole formed with a screw thread on the inner circumferential surface on one side; and a second rod having a control rod formed with a screw thread to be screwed into the insertion fastening hole of the first body Body; The body portion may be adjusted in length according to the length of the second body is inserted into the first body.

Preferably, at least two reinforcing brace members are joined to the vertical member, and the fixing coupler may further include a fixing groove which is perforated so that the fastening means of another neighboring reinforcing brace member may be inserted therethrough.

According to the reinforcing structure of the structure using the brace member according to an embodiment of the present invention, when the strength or position of the load applied on the upper portion of the structure is changed by expansion or remodeling, even without the addition of a separate structural member In addition, by changing the coupling angle and position of the reinforcing brace member fixedly mounted to provide an effect that effectively responds to the changed load.

1 is a perspective view schematically showing the concept of a reinforcing structure of a structure using a brace member according to an embodiment of the present invention.
Figure 2 is an exploded perspective view showing a reinforcing brace member applied to an embodiment of the present invention.
Figure 3 is a perspective view showing a position adjusting portion applied to an embodiment of the present invention.
4 is AA of FIG. 3.
Figure 5 is a schematic diagram showing that the coupling angle and the coupling position is adjusted according to the change in the load and position of the upper structure of the reinforcing brace member applied to an embodiment of the present invention.

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

First, the embodiments described below are embodiments suitable for understanding the technical features of the reinforcement structure of the structure using the brace member of the present invention. However, the technical features of the present invention are not limited by the embodiments to which the present invention is applied or explained in the following embodiments, and various modifications are possible within the technical scope of the present invention.

Reinforcement structure 100 of the structure using a brace member according to an embodiment of the present invention, as shown in Figure 1, the horizontal member 210 and the vertical member 230 constituting the structure, and the horizontal It may include a member 210 and the reinforcing brace member 300 is inclined to the vertical member 230.

At this time, the reinforcing brace member 300, both ends are hinged to the horizontal member 210 and the vertical member 230 so that the angle is coupled, it may be formed to be adjustable in length.

In addition, the horizontal member 210 and the vertical member 230, the position adjusting portion 250 for guiding both ends of the reinforcing brace member 300 to move in the horizontal direction or vertical direction and to fix the position at a predetermined position ) May be provided. Accordingly, the angle and position of the reinforcing brace member 300 may be changed according to the variation of the load applied to the structure.

That is, referring to the embodiment illustrated in FIG. 1, the horizontal member 210 may be a bona slab or truss structure. In addition, the pillar may be formed in a square or a circle.

In addition, both ends of the reinforcing brace member 300 are connected to the horizontal member 210 and the vertical member 230, and both ends of the reinforcing brace member 300 are horizontal as shown in the arrow direction. It may be moved in the horizontal direction of the member 210 or in the vertical direction of the vertical member 230. At this time, the reinforcing brace member 300 may be provided to be adjustable in length so that the bonding position can be changed in a state in which both ends are connected. In addition, the vertical member 230 may include a position adjusting unit 250 to fix the reinforcing brace member 300 at a predetermined position while guiding the movement of the reinforcing brace member 300.

As such, while both ends of the reinforcing brace member 300 are moved, an angle and a position at which the reinforcing brace member 300 is coupled to the horizontal member 210 and the vertical member 230 may be varied.

For example, when a load on the horizontal member 210 is increased due to expansion or remodeling of the structure, an end portion of the reinforcing brace member 300 may be moved to the lower portion of the vertical member 230. Then, when the load burden is reduced by the remodeling of the structure, the end of the reinforcing brace member 300 can be fixed by moving to the upper portion of the vertical member 230.

In addition, for example, when the expansion of the structure is made in a portion of the horizontal member 210, the load is generated in the horizontal member 210, the end of the reinforcing brace member 300 is the horizontal member It may be moved to be fixed to the lower portion of the extension portion 210.

Accordingly, the reinforcing structure 100 of the structure using the brace member according to an embodiment of the present invention, when the strength or position of the load applied from the upper portion of the structure by extension or remodeling, etc., the additional structural member Without the addition, by changing the coupling angle and position of the reinforcing brace member 300 is fixedly mounted to provide an effect that effectively corresponds to the load that is changed.

Meanwhile, in detail, the reinforcing brace member 300 is coupled to both ends of the body portion 310 and the body portion 310 extending in the longitudinal direction, as shown in the embodiment shown in FIG. It is formed to a diameter larger than the diameter of the part 310, it may be configured to include a fixed coupling sphere 330 is formed with a coupling groove 331 to which the fastening means 350 is coupled.

3 and 4, the position adjusting part 250 has fitting grooves 251 formed in the horizontal member 210 and the vertical member 230 in a shape corresponding to the fixing coupler 330. And a guide groove portion 253 communicating with the fitting groove 251 and spaced apart from the horizontal member 210 and the vertical member 230 at predetermined intervals and communicating with the guide groove portion 253, and fastened to each other. The means 350 may include a through hole 255 through which the means 350 are inserted.

In this case, the guide groove 253 is formed to be open to the outside of the first guide groove 253a and the first guide groove 253a formed in the longitudinal direction to the size corresponding to the fixed coupling sphere 330, A second guide groove 253b formed to have a size corresponding to the body portion 310 may be provided.

That is, in the illustrated embodiment, the configuration is disclosed that the position adjusting portion 250 is formed only on the vertical member 230, the position adjusting portion 250 is both the horizontal member 210 and the vertical member 230 Can be formed on

In addition, the fixing coupler 330 of the reinforcing brace member 300 is inserted into the fitting groove 251 may be moved in the vertical or horizontal direction along the first guide groove 253a. At this time, since the second guide groove 253b is formed to have a size corresponding to the body portion 310, the fixing coupler 330 is inserted into the fitting groove 251 so as not to be separated to the outside when moved downward. do.

At this time, the position adjusting part 250 is formed with a through hole 255 in communication with the first guide groove 253a, the coupling hole 330 is formed with a coupling groove 331 is the through hole ( 255 and the fastening means 350 through the coupling groove 331 through the fastening means 330 may be fixed to a specific position of the position adjusting unit 250.

Such a configuration in which the fixing coupler 330 is moved and fixed to the position adjusting unit 250 is common to both the horizontal member 210 and the vertical member 230.

Meanwhile, referring to FIG. 2, the body part 310 includes a first body 311 having an insertion fastening hole 312 having a thread formed on an inner circumferential surface on one side thereof, and an insertion fastening of the first body 311. It may be composed of a second body 315 having a threaded adjustment rod 316 is inserted into the hole 312 and screwed.

At this time, the reinforcing brace member 300, the length can be adjusted according to the length of the second body 315 is inserted into the first body 311.

Accordingly, the reinforcing brace member 300 may adjust the length of the body portion 310 to move the end horizontally or vertically.

On the other hand, as shown in the embodiment shown in Figure 1, two or more reinforcing bracing member 300 may be bonded to the vertical member 230. In addition, the fixing coupler 330 may further include a fixing groove 257 perforated so that the fastening means 350 of the other reinforcing bracing member 300 is inserted through.

That is, as shown in the embodiment shown in Figures 3 and 4, the guide member 253 may be formed in a double so that two or more reinforcing brace member 300 is bonded to the vertical member 230, the two or more Reinforcing bracing member 300 may be matched to the height of the end at any position.

At this time, the fastening means 350 of the other reinforcing brace member 300 is coupled to the fixing groove 257, so that the fixing coupler 330 of the neighboring reinforcing brace member 300 is connected to the reinforcing brace member Load distribution between (300) is achieved to achieve structural stability.

On the other hand, Figure 5, as the load of the structure is variable, the operation of the reinforcing structure 100 of the structure according to an embodiment of the present invention is shown.

5 illustrates an example in which the horizontal member 210 is a truss structure, but is not limited thereto. The horizontal member 210 may be variously applied to a slab or a general steel beam.

First, as shown in the embodiment shown in Figure 5 (a), when the load of the upper structure (T1) is large, since the load on the horizontal member 210 is increased, the end of the reinforcing bracing member 300 Is moved to the bottom of the vertical member 230 is fixed. In addition, since the upper structure (T1) is located on the left side, the end of the reinforcing brace member 300 is also moved to the left side of the horizontal member 210 is fixed.

Next, as shown in the embodiment shown in Figure 5 (b), when the load of the upper structure (T2) is reduced, the end of the reinforcing brace member 300 may be moved to the upper portion of the vertical member (230). Accordingly, the distances d3 and d4 between the ends of the reinforcing bracing member 300 connected to the vertical member 230 and the horizontal member 210 in FIG. 5 (b) are the vertical members in FIG. 5 (a). It becomes smaller than the distance (d1, d2) between the end of the reinforcing brace member 300 connected to the 230 and the horizontal member 210.

In addition, the angles θ3 and θ4 formed by the reinforcing brace member 300 and the horizontal member 210 in FIG. 5 (b) are the reinforcing brace member 300 and the horizontal member (FIG. 5A). It becomes smaller than the angles θ1 and θ2 formed by 210.

In this way, the reinforcing brace member 300 is effectively changed to the load of the upper structure to be increased and decreased, while the coupling angle and the coupling position of the structure is changed according to the load and installation position of the upper structure to be increased or decreased.

According to the reinforcing structure of the structure using the brace member according to an embodiment of the present invention, when the strength or position of the load applied on the upper portion of the structure is changed by expansion or remodeling, even without the addition of a separate structural member In addition, by changing the coupling angle and position of the reinforcing brace member fixedly mounted to provide an effect that effectively responds to the changed load.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention, It will be appreciated that those skilled in the art will readily understand the present invention.

100: reinforcement structure 200: structure
210: horizontal member 230: vertical member
250: position adjustment 251: fitting groove
253: guide groove 253a: first guide groove
253b: second guide groove 255: through hole
257 fixed groove 300 reinforcement bracing member
310: body portion 311: first body
312: fastening hole 315: second body
316: control rod 330: fixed coupling

Claims (5)

Horizontal and vertical members constituting the structure; And
It is coupled to the horizontal member and the vertical member inclined, both ends are hinged to the horizontal member and the vertical member so that the angle is coupled, the reinforcing brace member formed to be adjustable in length; includes,
The horizontal member and the vertical member is provided with a position adjusting portion for guiding the both ends of the reinforcing brace member to move in the horizontal direction or the vertical direction and to fix the position at a predetermined position, to the variation of the load applied to the structure Reinforcement structure of the structure using the brace member configured to change the angle and position of the reinforcing brace member is coupled accordingly.
The method of claim 1, wherein the reinforcing brace member
A body portion extending in the longitudinal direction; And
Fixed coupling spheres coupled to both ends of the body portion, the diameter of which is greater than the diameter of the body portion, and a coupling groove to which the coupling means is coupled;
Reinforcement structure of the structure using a brace member, characterized in that it comprises a.
According to claim 2, wherein the position adjusting unit
Fitting grooves formed in the horizontal member and the vertical member in a shape corresponding to the fixing coupler;
A first guide groove communicating with the fitting groove, the first guide groove having a length corresponding to the fixing coupler, and formed to be opened to the outside of the first guide groove and having a size corresponding to the body portion; A guide groove having a groove; And
A through hole in which the horizontal member and the vertical member are spaced apart from each other by a predetermined distance and communicated with the guide groove,
Reinforcement structure of the structure using a brace member, characterized in that it comprises a.
3. The method of claim 2,
The body portion, the first body having an insertion fastening hole formed with a screw thread on the inner circumferential surface on one side; and a second body having an adjustment rod formed with a screw thread is inserted into the insertion fastening hole of the first body; Is composed,
The body portion reinforcement structure of the structure using a brace member, characterized in that the length is adjusted according to the length of the second body is inserted into the first body.
5. The method according to any one of claims 2 to 4,
Two or more reinforcing brace members are bonded to the vertical member,
The fixed coupling unit, the reinforcing structure of the structure using a brace member, characterized in that it further comprises a fixing groove perforated so that the fastening means of the neighboring reinforcing brace member through.

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