KR20190002725U - Pendulum Stick Slip - Google Patents

Abstract

The present invention is the most stable material among the materials used so far to solve the structural structure that must cope with horizontal shaking caused by seismic waves while supporting heavy weight, and solved polymer engineering friction pendulum plastic as the main material.
This material demonstrates frictional force while bearing the weight of up to 200 tons of vertical load as a result of foreign experiments.
Using this, the upper and lower sides absorb and absorb seismic waves on semicircular sliding plates having different sizes of semicircular concave plates, and after the earthquake, slide down the concave slope of the semicircle to return to the original position.
A feature of the present invention is a device that allows the friction pendulum between the upper and lower plates to be reliably stopped at the center in a normal state.
When the ball rises into the recessed groove (100w) of the friction pendulum in the middle of the day, it is seated in the recessed groove (100w) in the upper and lower centers of the friction pendulum and is held securely. The spring enters the hole (530w) and the friction pendulum moves freely above it.
The second feature is that the lower plate is equipped with a drop prevention jaw to prevent the upper plate from falling off when excessive earthquake of earthquake occurs.
This is a seismic isolator that compensates for the two disadvantages of the existing pendulum type (separation of the upper plate and securing a stable position of friction pendulum).

Description

Pendulum isolation device for building structures {Pendulum Stick Slip}

As a structural structural isolating device, prior art Korea Patent Registration No. 10-1708886 focused on the seismic support for bridges, and when used as a bridge support, the wide side is placed upward.

When applied for building isolation, the narrow base circle pendulum plate is attached to the upper structure because the wide supporting surface is placed downward, so the movement width is small and the lower wide semicircle pendulum plate is mounted on the ground concrete and is used for isolation of the upper and lower layers. It is a seismic isolator that guarantees the safety of building in case of earthquake by arranging high-molecular engineering friction pendulum to smooth vertical load and horizontal sliding.

The present invention is the most stable material among the available materials to date, which is the most stable material to solve the structural structure that must cope with the horizontal shaking caused by seismic waves while supporting heavy weight, and solved the polymer engineering friction pendulum plastic as the main material.

This material demonstrates frictional force while bearing the weight of up to 200 tons of vertical load as a result of foreign experiments.

Using this, the upper and lower sides digest and absorb seismic waves on semicircular sliding plates having different sizes of semicircular concave plates, and after the earthquake, slide down the concave slope of the semicircle to return to the original position.

The present invention is the most stable material among the available materials to date, which is the most stable material to solve the structural structure that must cope with the horizontal shaking caused by seismic waves while supporting heavy weight, and solved the polymer engineering friction pendulum plastic as the main material.

This material demonstrates frictional force while bearing the weight of up to 200 tons of vertical load as a result of foreign experiments.

Using this, the upper and lower sides digest and absorb seismic waves on semicircular sliding plates having different sizes of semicircular concave plates, and after the earthquake, slide down the concave slope of the semicircle to return to the original position.

A feature of the present invention is a device that allows the friction pendulum between the upper and lower plates to be reliably stopped at the center in a normal state.

When the ball rises into the recessed groove (100w) of the friction pendulum in the middle of the day, it is seated in the recessed groove (100w) in the upper and lower centers of the friction pendulum and is held securely. The spring enters the hole (530w) and the friction pendulum moves freely above it.

The second feature is that the lower plate is equipped with a drop prevention jaw to prevent the upper plate from falling off when excessive earthquake of earthquake occurs.

This is a seismic isolator that compensates for the two disadvantages of the existing pendulum type (separation of the upper plate and securing a stable position of the friction pendulum).

1 is an explanatory numbered image of each code.
Figure 2 is a perspective view of the finished product installed.
3 is a position perspective view of the friction pendulum in a stationary state.
4 is an exploded perspective view of the friction phenomenon of the friction pendulum when the seismic energy is pushed to the right.
5 is a perspective view of the friction phenomenon of the friction pendulum when the seismic energy is pushed to the left.

The present invention is the most stable material among the available materials to date, which is the most stable material to solve the structural structure that must cope with the horizontal shaking caused by seismic waves while supporting heavy weight, and solved the polymer engineering friction pendulum plastic as the main material.

This material demonstrates frictional force while bearing the weight of up to 200 tons of vertical load as a result of foreign experiments.

Using this, the upper and lower sides digest and absorb seismic waves on semicircular sliding plates having different sizes of semicircular concave plates, and after the earthquake, slide down the concave slope of the semicircle to return to the original position.

A feature of the present invention is a device that allows the friction pendulum between the upper and lower plates to be reliably stopped at the center in a normal state.

When the ball rises into the recessed groove (100w) of the friction pendulum in the middle of the day, it is seated in the recessed groove (100w) in the upper and lower centers of the friction pendulum and is held securely. The spring enters the hole (530w) and the friction pendulum moves freely above it.

The second feature is that the lower plate is equipped with a drop prevention jaw to prevent the upper plate from falling off when excessive earthquake of earthquake occurs.

This is a seismic isolator that compensates for the two disadvantages of the existing pendulum type (separation of the upper plate and securing a stable position of the friction pendulum).

100: Polymer engineering plastic friction pendulum (150 ~ 1500mm in diameter and 20 ~ 200mm in height) Designed according to architectural structure.
100w: Polymer engineering plastic friction pendulum center hole
200: upper plate iron plate
200a: Upper plate fixing bolt tab
300: lower plate
300a: Lower foundation connection bolt tab
510: spring break prevention cap bolt
520: spring
530: steel ball
530w: steel ball hall
800: upper plate release prevention jaw.

Claims (4)

As a means to protect the building structure by extinguishing horizontal shaking caused by seismic waves while supporting the heavy weight of the structure. Isolation device with steel ball.
As a means to protect building structures by extinguishing horizontal shaking caused by seismic waves while supporting the heavy weight of the structure, it is a seismic isolation device that implements sliding with polymer engineering friction pendulum plastic as the main material. A seismic isolator using a semi-circular plate designed to have a large width and a small upper width.
As a means to protect the building structure that must support the heavy weight of the structure while extinguishing the horizontal shaking caused by the seismic waves, the polymer engineering friction pendulum plastic is used, and the lower plate is used to prevent the upper plate from falling under the heavy impact. Isolation device equipped with a separation prevention jaw at the end of the plate.
A friction pendulum bearing for fixing a hole in the center of the friction pendulum used in the structure of item 1.

Images