KR20220040061A - Seismic device for structure using rotational friction amplifying damper - Google Patents

Abstract

The present invention relates to a seismic apparatus for a structure using a rotational friction amplifying damper, comprising: a displacement frame coupled to an upper portion of a structure, in which a large displacement occurs due to an earthquake, and shaken together with the structure; and a rotating means connected to the displacement frame to receive shaking (vibration) from the displacement frame and to generate a rotational force; and at least one friction means relieving the force, caused by the shaking of the structure, by frictionally dissipating the rotational force generated through the rotating means. The displacement frame is installed on the upper portion of the structure where a large displacement occurs due to an earthquake, when the upper part of the structure is shaken together with the displacement frame due to an earthquake, the shaking force of the structure is converted into the rotational force through the rotating means connected to the displacement frame, the converted rotational force can solve the shock (shaking) occurring at the structure in a manner of frictional dissipation through the friction means, thereby reinforcing the seismic performance of the structure very stably. In addition, there is no difficulty in installing the displacement frame, the rotating means, and the friction means, so that very convenient installation and application of the device can be induced, thereby securing excellent usage versatility.

Description

Seismic device for structure using rotational friction amplifying damper

The present invention relates to an earthquake-resistant device for a structure using a rotational friction amplification damper, and more particularly, a displacement frame is installed on the upper part of a structure in which a large displacement occurs due to an earthquake, and the upper part of the structure is provided with a displacement frame by an earthquake. When it shakes, the force that shakes the structure is converted into rotational force through the rotation means connected to the displacement frame, and the converted rotational force can resolve the impact (shake) generated on the structure in such a way that the friction is lost through the friction means, so it is very stable It relates to an earthquake-resistant device of a structure using a rotational friction amplification damper that can reinforce the earthquake-resistant performance of the structure.

In general, when an earthquake occurs with small or medium-sized structures such as transformers, switchboards, processing machines, vertical tanks, silos, etc. on the ground, the seismic force (vibration) transmitted to the ground transmits an impact to the lower part of the structure and , the impact is transmitted to the upper part of the structure and the upper part of the structure is shaken.

At this time, if the structure does not withstand the shaking (vibration) of the upper part generated by the earthquake, it is eventually damaged or damaged.

Therefore, in recent years, a technology for securing the safety of a structure due to an earthquake through a seismic device that reinforces the seismic performance of the structure has been developed.

However, the conventional seismic device of a structure is a method of resolving the shaking of a structure due to an earthquake through the tension (tension) of the wire. If the tension is not properly maintained, there is a practical problem that the usability of the device is rather low due to the problem that the seismic performance is lowered.

In addition, there is a problem in that the tension of the wire may change depending on the period of use and the environment of use, and this change cannot guarantee the designed seismic performance in the end, so that the stable seismic performance of the structure cannot be secured.

The present invention has been proposed in order to solve the various problems as described above, and its purpose is to install a displacement frame on the upper part of a structure in which a large displacement occurs due to an earthquake, and when the upper part of the structure shakes with the displacement frame due to an earthquake , converts the force that shakes the structure into rotational force through the rotation means connected to the displacement frame, and the converted rotational force can resolve the impact (shake) generated in the structure in such a way that friction is lost through the friction means. An object of the present invention is to provide an earthquake-resistant device for a structure using a rotational friction amplification damper capable of reinforcing the earthquake-resistant performance of the structure.

In addition, there is no installation difficulty of the displacement frame, the rotation means and the friction means, so it is possible to induce a very convenient installation and application of the device, thereby securing the excellent usability of the device. .

A seismic device for a structure using a rotational friction amplifying damper according to the present invention for achieving the above object is a displacement frame coupled to an upper portion of a structure generating large displacement by an earthquake and swaying together with the structure; and the displacement frame and Rotating means for generating rotational force by receiving shaking (vibration) from the displacement frame that is connected and shakes together with the structure; and one or more frictions that friction-dissipate the rotational force generated through the rotational means to eliminate the force caused by the shaking of the structure means; characterized in that it is configured to include.

In addition, the rotating means is coupled and fixed to the ground or the lower part of the structure, is positioned to face the displacement frame and is vertically upright in a flat plate-shaped earthquake-resistant frame, and is formed on the displacement frame, toward the earthquake-resistant frame. A transmission piece that is formed to protrude, and is connected to the upper part of the earthquake-resistant frame to be rotatably connected to the earthquake-resistant frame, and the upper part is connected to the transmission piece and when the displacement frame shakes with the structure, the shaking is transmitted through the transmission piece. It is characterized in that it is configured to include a rotating piece that is rotated with respect to the earthquake-resistant frame.

In addition, guiding means for guiding the rotating piece to rotate stably with respect to the earthquake-resistant frame;

The guide means includes a guide piece protruding from the center of the lower portion of the rotary piece toward the earthquake-resistant frame, and a stable rotation of the rotary piece together with the guide piece penetrating in an arc shape on the earthquake-resistant frame and entering the inside. It is characterized in that it is configured to include a guide path for guiding.

In addition, the friction means is rotatably coupled to the gear teeth formed on the lower portion of the rotating piece and the earthquake-resistant frame, and gear teeth meshing with the gear teeth are formed on the outer peripheral surface to receive rotational force when the rotating piece rotates to rotate together. An annular rotation damper is coupled and fixed on the earthquake-resistant frame, and one surface is in contact with the rotation damper and is configured to include a friction pad.

In addition, at least two or more seismic devices of the structure using the rotational friction amplifying damper are installed in the structure, and one or more reinforcement frames connecting the seismic frames of the earthquake resistant device of the structure using the installed rotational friction amplifying damper to each other; And, the It is characterized in that it further comprises a; vibration-proof pad installed between the lower part of the earthquake-resistant frame and the earthquake-resistant frame and the structure to absorb and relieve the seismic force transmitted from the ground.

As described above, according to the earthquake-resistant device for a structure using the rotational friction amplification damper according to the present invention, a displacement frame is installed on the upper part of the structure in which a large displacement occurs due to an earthquake, and the upper part of the structure is formed by the earthquake together with the displacement frame. When it shakes, the force that shakes the structure is converted into rotational force through the rotation means connected to the displacement frame, and the converted rotational force can resolve the impact (shake) generated on the structure in such a way that the friction is lost through the friction means, so it is very stable This has the effect of reinforcing the seismic performance of the structure.

In addition, there is no difficulty in installing the displacement frame, the rotation means, and the friction means, so it is possible to induce a very convenient installation and application of the device, thereby securing excellent usability of the device.

1 is a perspective view of a seismic device of a structure using a rotational friction amplification damper according to an embodiment of the present invention;
Figure 2 is an exploded perspective view of the seismic device of the structure using the rotational friction amplification damper shown in Figure 1;
3 is an AA cross-sectional view of a seismic device of a structure using the rotational friction amplification damper shown in FIG. 1;
Figure 4 is a state diagram of the use of the seismic device of the structure using the rotational friction amplification damper shown in Figure 1;

An earthquake-resistant device for a structure using a rotational friction amplification damper according to a preferred embodiment of the present invention will be described in detail based on the accompanying drawings. Detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the gist of the present invention will be omitted.

1 to 4 show an earthquake-resistant device for a structure using a rotational friction amplifying damper according to an embodiment of the present invention, and FIG. 1 is a perspective view of the earthquake-resistant device for a structure using a rotational friction amplifying damper according to an embodiment of the present invention. Figure 2 is an exploded perspective view of the seismic device of the structure using the rotary friction amplifying damper shown in Fig. 1, Figure 3 is an AA cross-sectional view of the seismic device of the structure using the rotary friction amplifying damper shown in Fig. is a state diagram of the use of the seismic device of the structure using the rotational friction amplification damper shown in FIG. 1, respectively.

As shown in the figure, the earthquake-resistant device 100 for a structure using a rotational friction amplification damper according to an embodiment of the present invention includes a displacement frame 10 , a rotation means 20 , and a friction means 30 . are doing

As shown in FIGS. 1 to 3 , the displacement frame 10 is coupled to the upper portion of the structure 1 in which a large displacement occurs due to an earthquake so as to vibrate together with the structure 1 .

In general, when an earthquake occurs, the seismic force is transferred from the lower part to the upper part of the structure (1) and shaking occurs at the upper part. To secure, the displacement frame 10 is installed and fixed on the upper part of the structure 1 .

1 to 3 , the rotation means 20 is connected to the displacement frame 10 and receives shaking (vibration) from the displacement frame 10 shaking together with the structure 1 to generate rotational force. by causing it,

A flat plate-shaped earthquake-resistant frame 21 that is fixed to the ground or the lower part of the structure 1 and is positioned to face the displacement frame 10 and stands vertically long, and is formed on the displacement frame 10 As such, the transmission piece 22 protruding toward the earthquake-resistant frame 21 and the transmission piece 22 are connected to an upper portion of the earthquake-resistant frame 21 to be rotatably connected with respect to the earthquake-resistant frame 21, the upper portion of which is the transmission piece 22 ) is connected to the structure 1, and when the displacement frame 10 shakes, it receives the shake through the transmission piece 22 and includes a rotating piece 23 that is rotated based on the earthquake-resistant frame 21. do.

That is, as shown in Fig. 4a, when the upper part of the structure 1 is shaken due to an earthquake, the transfer piece 22 together with the displacement frame 10 coupled to the upper portion of the structure 1 is shaken by the transfer piece ( 22) and the upper part of the rotating piece 23 connected to the left and right direction is rotated depending on the earthquake-resistant frame (21). At this time, of course, the lower portion of the rotating piece 23 is also rotated in the left and right direction.

Therefore, the shaking of the structure due to vibration is converted into the rotational movement of the rotating piece 23 through the rotation means 20, and the energy of the rotational movement thus converted is through the friction of the friction means 30 to be installed later. To solve, this will be described in detail below.

In addition, as shown in FIGS. 2 and 3 , a guide means 40 for guiding the rotating piece 23 to rotate stably with respect to the earthquake-resistant frame 21;

The guide means 40 includes a guide piece 41 protruding from the lower center of the rotating piece 23 toward the earthquake-resistant frame 21 and penetrating through the earthquake-resistant frame 21 in an arc shape. It is configured to include a guide path 42 for guiding the stable rotation of the rotating piece 23 together with the guide piece 41 to be introduced into the interior.

That is, when the rotating piece 23 of the rotating means 20 is rotated left and right depending on the earthquake-resistant frame 21 due to an earthquake as shown in FIG. 4A , the guide piece is rotated together with the rotating piece 23 As the 41 is transported left and right along the guide path 42 , a stable rotation of the rotating piece 23 is induced.

At this time, the guide path 42 limits the moving radius of the guide piece 41 to set the maximum rotation angle of the rotation piece 23. This maximum rotation angle is determined by considering the size of the structure, the surrounding environment, etc. It can be set in various ways, preferably, it is good to set it to 4° to 16°.

1 to 3 , at least one friction means 30 is formed to frictionally dissipate the rotational force generated through the rotation means 20 to eliminate the force caused by the shaking of the structure 1 . as,

Gear teeth 31 formed on the lower portion of the rotating piece 23, and rotatably coupled to the earthquake-resistant frame 21, gear teeth 32a meshed with the gear teeth 31 are formed on the outer peripheral surface. When the rotating piece 23 rotates, the annular rotation damper 32 that receives rotational force and rotates together is coupled and fixed on the earthquake-resistant frame 21, one surface of which is in contact with and friction with the rotation damper 32 It is configured to include a friction pad (33).

That is, when the rotating piece 23 of the rotating means 20 is rotated left and right depending on the earthquake-resistant frame 21 due to an earthquake, the gear teeth 31 of the rotating piece 23 as shown in FIG. 4B . The rotary damper 32 meshed with the rotary damper 32 is rotated in the left and right directions by receiving the rotational force. By offsetting (disappearing), the force generated when the structure 1 is shaken by the earthquake is converted into a rotational force through the rotation means 20, and the rotational force is resolved through the friction means 30, so that the structure caused by the earthquake It reliably prevents safety accidents such as collapse and damage.

The seismic device 100 of the structure using the rotational friction amplification damper of the present invention is implemented as one friction means 30 is formed, but in consideration of the size and surrounding environment of the structure 1, two friction means ( Of course, 30) may be formed vertically or horizontally, or a larger number of the friction means 30 may be formed.

On the other hand, as shown in FIGS. 1 to 3 , at least two seismic devices 100 of a structure using the rotational friction amplification damper are installed in the structure, and the seismic device 100 of a structure using the installed rotational friction amplification damper 100 ) of one or more reinforcing frames 50 connecting the earthquake-resistant frame 21 to each other; and the lower part of the earthquake-resistant frame 21 and the earthquake-resistant frame 21 and the structure 1 installed between the structure 1 and the seismic force transmitted from the ground It is configured to further include a; anti-vibration pad 60 to absorb and eliminate the.

That is, by the seismic force (vibration, impact) generated by an earthquake through the reinforcing frame 50 that connects the seismic frame 21 to each other and the anti-vibration pad 60 installed in the seismic frame 21, By strengthening the structural safety of the earthquake-resistant device 100 of a structure using the rotational friction amplifying damper of the present invention by preventing the damage and breakage of the earthquake-resistant frame 21 in advance, the rotational friction amplifying damper of the present invention when an earthquake occurs To effectively secure the seismic performance of the structure through the seismic device 100 of the used structure.

The earthquake-resistant device 100 for a structure using the rotational friction amplification damper of the present invention comprising the above components installs the displacement frame 10 on the upper part of the structure 1 in which a large displacement occurs due to an earthquake, and When the upper portion of the structure 1 is shaken together with the displacement frame 10 by the The converted rotational force is effective in reinforcing the earthquake-resistant performance of the structure very stably because it is possible to resolve the impact (shake) generated in the structure in such a way that friction is lost through the friction means 30 .

In addition, there is no difficulty in installing the displacement frame 10 , the rotating means 20 and the friction means 30 , so it is possible to induce a very convenient installation and application of the device, thereby securing excellent usability of the device.

The earthquake-resistant apparatus 100 of a structure using a rotational friction amplification damper according to an embodiment of the present invention having the above configuration stably protects the structure 1 from an earthquake as follows.

First, when shaking occurs in the structure 1 due to an earthquake as shown in FIG. 4A , the rotation means 20 converts the force generated while the structure 1 shakes into rotational force to rotate the rotation means 20 . The piece 23 is rotated in the left and right direction.

Then, as shown in FIG. 4B , the rotation damper 32 of the friction means 30 receives the rotational force of the rotation piece 23 and rotates while rubbing with the friction pad 33 naturally. In such a way that the rotational force is dissipated, the force that shakes the structure 1 by the earthquake is eliminated.

Therefore, the earthquake-resistant device 100 for a structure using the rotational friction amplification damper of the present invention is to safely protect the structure 1 from an earthquake.

Although the present invention has been described with reference to the embodiments shown in the accompanying drawings, which are illustrative and not limited to the above-described embodiments, those of ordinary skill in the art will realize that various modifications and equivalent embodiments are possible therefrom. point can be understood. In addition, it goes without saying that modifications by those skilled in the art are possible within the scope that does not impair the spirit of the present invention. Accordingly, the scope of claiming the right in the present invention is not defined within the scope of the detailed description, but will be limited by the claims and technical spirit thereof to be described later.

1. structure
10. Displacement frame 20. Rotating means
21. Seismic frame 22. Delivery service
23. Rotating piece 30. Friction means
31. Gear teeth 32. Rotation damper
33. Friction pad 40. Guide means
41. Guideway 42. Guideway
50. Reinforcement frame 60. Anti-vibration pad
100. Seismic device of structure using rotational friction amplification damper

Claims (5)

In the earthquake-resistant device of a structure that strengthens the earthquake-resistant performance of the structure (1) due to an earthquake,
A displacement frame 10 coupled to the upper portion of the structure 1 that generates large displacement by an earthquake and swaying together with the structure 1;
a rotation means 20 connected to the displacement frame 10 and receiving shaking (vibration) from the displacement frame 10 shaking together with the structure 1 to generate a rotational force; and
One or more friction means (30) for dissipating the rotational force generated through the rotation means (20) to frictionally dissipate the force caused by the shaking of the structure (1); Seismic device 100 of the structure.
The method of claim 1,
The rotating means 20,
A flat plate-shaped earthquake-resistant frame 21 that is fixed to the ground or the lower part of the structure 1 and is positioned to face the displacement frame 10 and is vertically erected;
A transmission piece 22 formed on the displacement frame 10 and protruding toward the earthquake-resistant frame 21;
The upper part of the seismic frame 21 is connected to be rotatable relative to the seismic frame 21 , and the upper part is connected to the transmission piece 22 so that the displacement frame 10 together with the structure 1 shakes. Seismic device 100 of a structure using a rotational friction amplification damper, characterized in that it comprises a rotating piece 23 that receives vibration through the transmission piece 22 and rotates with respect to the earthquake-resistant frame 21 .
3. The method of claim 2,
Guiding means (40) for guiding the rotating piece (23) to rotate stably with respect to the earthquake-resistant frame (21);
The guide means 40,
a guide piece 41 protruding from the center of the lower portion of the rotation piece 23 toward the earthquake-resistant frame 21;
Including a guide path 42 for guiding the stable rotation of the rotating piece 23 together with the guide piece 41 that is formed through an arc shape on the earthquake-resistant frame 21 and is introduced into the interior Seismic device of a structure using a rotational friction amplification damper, characterized in that it becomes.
3. The method of claim 2,
The friction means 30,
Gear teeth 31 formed on the lower portion of the rotating piece 23,
It is rotatably coupled to the earthquake-resistant frame 21, and gear teeth 32a meshed with the gear teeth 31 are formed on the outer circumferential surface so that when the rotating piece 23 rotates, it receives rotational force and rotates together. of the rotation damper 32 and
Seismic device of a structure using a rotational friction amplifying damper, characterized in that it is coupled and fixed on the earthquake-resistant frame (21), and includes a friction pad (33) one surface of which is in contact and friction with the rotational damper (32).
3. The method of claim 2,
At least two or more seismic devices 100 of a structure using the rotational friction amplification damper are installed in the structure 1, and the seismic frame 21 of the structure using the installed rotational friction amplification damper 100 is connected to each other. One or more reinforcing frames 50 to connect; And,
Rotation, characterized in that it further comprises a; is installed between the lower portion of the earthquake-resistant frame 21 and the earthquake-resistant frame 21 and the structure (1) to absorb and eliminate the seismic force transmitted from the ground; Seismic device of structure using friction amplification damper.

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