KR200358921Y1 - Reinforcement member for constructure - Google Patents

Abstract

The present invention relates to a construction reinforcement which is installed on a wooden structure of a wooden building to cushion the vibration caused by an earthquake and prevent collapse. The present invention relates to a cylindrical cylinder, a piston installed at both ends of the cylinder, and movable at both ends thereof. Two buffer means arranged side by side with springs provided on each of the pistons, and through holes for circulating air inside the cylinders to the outside, two attachment plates respectively attached to the orthogonal wooden structure, and formed on each attachment plate, Fixing hole, a fixing means for fixing the mounting plate to the wooden structure through the wooden structure through the fixing hole, and a circular ball portion formed on each side of each piston, and protruding side by side on one side of the mounting plate The socket part is provided so that the ball part is rotated in a circle so that the ball part is rotated within a predetermined range. It comprises a pivoting means.

Description

Construction Reinforcement {Reinforcement member for constructure}

The present invention relates to a construction reinforcement, and more particularly, to a construction reinforcement is installed on the wooden structure of the wooden building to mitigate the vibration or shaking caused by earthquakes and the like to prevent the wooden building collapse.

In general, there are methods such as reinforcement materials, angle beams, angle brackets, L-shaped brackets, etc., which are reflected as a method of reinforcing a joint of a conventional wooden building, but such a method lacks a shock absorbing ability to absorb strong vibrations caused by an earthquake or typhoon. There was a problem that the reinforcement was broken and this caused the building to collapse.

1 is a perspective view of the name "architectural reinforcing brackets" filed with the patent application No. 10-2001-0069697 dated November 09, 2001, is an isotropically shaped steel bent in an L-shape to be installed in an orthogonal building structure A first bracket 20 having a buffered bent portion 25 extending outwardly from the bent portion 22 of the 21, and a fixing portion 31 fixedly attached to both ends 24 of the first bracket 20; ) Is provided at both ends, and is composed of a second bracket 30 having a buffered curved portion 34 formed at an intermediate center thereof, and both ends 24 and the second bracket 30 of the first bracket 20 described above. The government 31 was fixedly attached to both orthogonal building structural members so as to flexibly reinforce the joints of the building structural materials. Further, the middle portion of the second bracket 30 was bent smoothly outwardly or inwardly to form an arc portion 33, and at the same time, the middle middle portion was expanded inwardly or outwardly to form a buffered curved portion 34.

Such a construction reinforcement is applied to the bent portion 22 of the first bracket 20 if the combination bracket consisting of the first bracket 20 and the second bracket 30 having the spring elasticity made of high tensile steel is applied to the joint over the building structure. Vibration occurs in a wooden building due to an earthquake or typhoon due to the synergistic effect of the buffered curved portion 25 and the arcuate portion 33 and the buffered curved portion 34 formed on the second bracket 30. Even so, a cushioning effect is generated to prevent the collapse of wooden buildings.

However, when the conventional construction reinforcement is applied to the external force of a certain pressure due to the vibration or fluctuation caused by the earthquake or typhoon, it is deformed by the external force and loses the original buffering and restoring function, thereby causing damage to the wooden building. There was a problem that can not be prevented.

The present invention has been made to solve the above-mentioned problems, the object of the present invention is to provide a reinforcement for construction that is installed on the wooden structure of the wooden building to reduce the vibration caused by the earthquake or the like so as not to collapse.

1 is a perspective view of a conventional construction reinforcement.

Figure 2 is a perspective view of the reinforcement for construction according to the present invention.

Figure 3 is a side view of the reinforcement for construction according to the present invention.

Figure 4 is a cross-sectional view of the actuator of the construction reinforcement according to the present invention.

5 is a cross-sectional view of the ball joint of the reinforcement for construction according to the present invention.

Figure 6 is a side view showing an installation example of the reinforcement for construction according to the present invention.

7a and 7b is a view showing the operating state of the construction reinforcement according to the present invention.

<Explanation of symbols for the main parts of the drawings>

111: cylinder 113: through hole

115: piston 117: spring

131: mounting plate 133: fixing hole

135: fixing member 141: socket portion

143: ball part

The present invention devised to achieve the above object is as follows. Construction reinforcement of the present invention is installed in a wooden structure to prevent the warpage or deformation of the wooden structure in the construction reinforcement to prevent the destruction or collapse of the wooden building, the cylindrical cylinder and both ends of the cylinder through Two buffer means arranged in parallel with two pistons arranged in parallel with each other and having a through hole for distributing air inside the cylinder to the outside, and a piston installed to be movable so as to be movable, and a spring installed at both ends thereof. An attachment plate, a fixing hole formed in each attachment plate, fixing means for fixing the attachment plate to the wooden structure through the fixing hole, and a circular ball part formed on one side of each piston, and the attachment plate, respectively. Protruding side by side on the side of the ball recessed in a circular shape so that the ball is located at each center of the ball within a certain range It includes a rotating means provided with a socket for moving, when the distance between the piston is changed by the rotation and tilting of the piston by the twisting or deformation of the wooden structure, while the air inside the cylinder is partially distributed through the through hole The restoring force of the spring acts on the piston, thereby alleviating warping and deformation of the wooden structure.

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

Figure 2 is a perspective view of the construction reinforcement according to the present invention, Figure 3 is a side view of the construction reinforcement according to the present invention, Figure 4 is a cross-sectional view of the actuator of the construction reinforcement according to the present invention, Figure 5 6 is a side view showing an example of installation of a construction reinforcement according to the present invention, Figure 7a and 7b is a view showing the operating state of the construction reinforcement according to the present invention.

The construction reinforcement tool of the present invention is largely a buffer means 110 for relieving the force during vibration or shaking due to an earthquake or typhoon, and a fixing means 130 for fixing the buffer means 110 to the wooden structure 10. And, the shock absorbing means 110 is composed of a rotating means 140 to enable the rotation from the fixing means 130 in a certain range.

First, the cushioning means 110 absorbs the force when the wooden structure 10 is warped or distorted by an earthquake or typhoon to block the collapse of the wooden building. In particular, as shown in Figure 2, two are installed side by side to sufficiently cope with excessive flipping or deformation of the wooden structure (10).

As shown in FIG. 4, the shock absorbing means 110 includes a cylindrical cylinder 111 and a through hole 113 formed through the cylinder 111 to allow the internal air of the cylinder 111 to flow with external air. Piston 115 is installed on both sides of the cylinder 111 so as to be movable through both ends of the cylinder 111, and both ends of the spring 117 are fixed to each piston 115 to move the piston 115. , When the distance between the piston 115 changes, the restoring force is applied to the piston 115.

Therefore, the piston 115 is movable through the through-hole 113 formed in the cylinder 111, the outside air inside and outside the cylinder 111, and the restoring force of the spring 117 acts. That is, when the wooden structure 10 vibrates or swings due to an earthquake or typhoon, the piston 115 moves as it is twisted or deformed by the force, and the spring 117 applies restoring force to the moving piston 115. By absorbing the force to prevent excessive deformation or breakage of the wooden structure (10).

In addition, when the vibration or shaking of the wooden structure 10 is stopped, the piston 115 is returned to its original position by the restoring force of the spring 117.

On the other hand, although the through hole 113 is formed in the cylinder 111 in the embodiment of the present invention, it is formed in the piston 115, of course, it is possible to distribute the air inside the cylinder 111.

Next, the fixing means 130 is to fix the above-mentioned buffer means 130 to the wooden structure 10, the mounting plate 131 to be interviewed to the wooden structure 10, respectively at both ends of the piston 115 A fixing hole 133 is formed to penetrate the attachment plate 131 to fix the attachment plate 131 to the wooden structure 10 by penetrating the fixing member 135.

Finally, as shown in FIG. 5, as shown in FIG. 5, the piston 115 installed in the fixing means 130 can rotate within a predetermined range from the fixing means 130, and the wooden structure ( 10, when the vibration or rocking caused by the earthquake or typhoon, the wooden structure 10 is twisted or deformed so that the shock absorbing means 110 can be sufficiently rotated, and with the attachment plate 131 of the fixing means 130 ) Is not separated from the wooden structure (10). In particular, the rotation means 140 is free to rotate and tilt at the time of vibration or swinging of the wooden structure 10, so that the attachment plate 131 is not separated from the wooden structure (10).

The rotating means 140 is protruded to one side of the ball portion 143 and the attachment plate 131 formed in a circular shape at the end of the piston 115 is recessed in a circular shape so that the ball portion 143 is fitted at the center thereof. It consists of a socket 141. That is, since the ball portion 143 is fitted to the center of the socket portion 141, the piston 115 can be rotated within a predetermined range from the mounting plate 131. Therefore, when the wooden structure 10 vibrates or swings, it rotates or tilts in response to the shaking.

The following describes the operation process of the buffer means 110, the fixing means 130, and the rotation means 140.

First, as shown in Figures 7a and 7b, with both the mounting plate 131 of the fixing means 130 shown in Figure 6 installed in the wooden structure 10 perpendicular to the ground and perpendicular to the ground, respectively, as shown in Figure 7a and 7b, When the wooden structure 10 is distorted or deformed due to vibration or shaking due to a typhoon or a typhoon, the distance between the pistons 115 in the cylinder 111 is changed by tilting the buffer means 110 due to the rotation means 140. ) Will exert a restoring force on the piston 115.

That is, FIG. 7A illustrates a state in which the wooden structure 10 vibrates vertically, and the two shock absorbing means 110 contract and support the wooden structure 10 while alleviating the vertical vibration force. 7b shows a case in which the wooden structure 10 is shaken horizontally, and the two buffer means 110 support the wooden structure 10 while alleviating the horizontal vibration by twisting horizontally as the two shock absorbing means 110 are tilted.

Here, the through hole 113, when the distance between the piston 115 changes, to prevent the air flows rapidly to reduce the moving speed of the piston 115, so that the wooden together with the spring 117 provided between the piston 115 It prevents the collapse of the wooden building due to the sharp twisting or deformation of the structure (10).

That is, the wooden structure 10 through the air flow in the cylinder 111 and the restoring force of the spring 117 while responding to the above-described distance change between the piston 115 during the vibration or shaking of the wooden structure 10, the torsion of the wooden structure 10 By mitigating the deformation or deformation, it is possible to prevent the collapse or breakage of the wooden building.

The present invention is not limited to the above-described embodiment and can be implemented in various modifications within the range allowed by the technical idea of the present invention.

According to the present invention configured as described above, the distance between the piston in the cylinder is changed in response to the vibration and swing of the wooden building, and the spring installed between the piston is deformed to buffer the force due to the vibration or rocking, It can prevent the collapse of wood building by typhoon or typhoon.

Claims (1)

In the construction reinforcement is installed on the wooden structure to prevent the destruction or collapse of the wooden building construction by preventing warpage or deformation of the wooden structure, A cylinder arranged in parallel with a cylindrical cylinder, a piston installed at both ends of the cylinder so as to be movable, a spring provided at both ends of the piston, and a through hole for passing air inside the cylinder to the outside; Buffer means; Two fixing plates respectively attached to the orthogonal wooden structures, fixing holes formed in the respective mounting plates, and fixing means for fixing the mounting plate to the wooden structures through the wooden structures through the fixing holes; And Circular ball parts respectively formed on one side of each of the piston, and protruding side by side formed on one side of the mounting plate and recessed in a circular shape so that the ball is located at each center is provided with a socket to rotate the ball within a certain range Including the means of rotation, When the distance between the pistons is changed by the rotation and inclination of the pistons due to the twisting or deformation of the wooden structure, the restoring force of the spring acts on the pistons while the air inside the cylinders is partially distributed through the through holes. , Construction reinforcement characterized in that to alleviate the distortion or deformation of the wooden structure.