KR20180092034A - Earthquake-resistant system - Google Patents

Abstract

The present invention relates to an earthquake-resistant system of a building that dampers earthquake impact applied to the building at earthquake occurrence to minimize breakage of the building caused by the earthquake. The earthquake-resistant system includes: an anti-vibration base formed in a shape of plate by placing reinforced concrete on a foundation of the building; a top anti-vibration plate installed on the anti-vibration base and made of reinforced concrete or steel plate; three or more anti-vibration cylinders provided between the anti-vibration base and the top anti-vibration plate at regular intervals; anti-vibration cushions provided at each center of the anti-vibration base and the top anti-vibration plate and connected through an anti-vibration sharing pipe to control sudden variations of the anti-vibration cylinder caused by earthquake impact; and a resilient cushion member provided between the anti-vibration cushion and the top anti-vibration plate to adjust cushion ability of the anti-vibration cushion.

Description

Earthquake-resistant system

More particularly, the present invention relates to a vibration damping system for a building, and more particularly, to a vibration damping system for a building, which comprises a vibration damping cylinder provided at three or more equidistant positions between a vibration damping base and a vibration damping upper plate, A vibration damping cushion provided at a central portion and connected to each of the vibration damping cylinders through a vibration damping common pipe to control a sudden change in the pressure in the vibration damping cylinder due to an earthquake impact and a cushion elasticity adjusting the cushioning force of the vibration damping cushion And to minimize the damage of the building caused by the earthquake by mitigating the support shock applied to the building when an earthquake occurs.

Generally, the vibration control system of a building minimizes the impact of the impact generated by the motion of the crest to the building, thereby protecting the building from earthquake caused by the crustal change.

The above-mentioned vibration damping system is provided with a buffering means such as a dust-proof spring at the lower part of the building.

In such a conventional anti-vibration system, the anti-vibration spring, which is caused by the earthquake-induced vibration of the anti-vibration spring provided at the lower part of the building, buffers the anti-shock structure.

However, the above-described conventional vibration damping system is configured to absorb an earthquake shock generated by the vibration damping spring due to the earthquake fluctuation. Therefore, the allowable range of the earthquake impact is limited according to the elasticity of the vibration damping spring, There is a problem that it is transmitted to the building and causes damage to the building.

Korean Patent No. 10-1266731

Accordingly, in the present invention, the conventional vibration damping system is configured to absorb an earthquake shock caused by a crustal vibration due to a vibration damping spring, so that the range of allowable earthquake impact is limited according to the elasticity of the vibration damping spring, So as to solve the problem of causing damage to the building.

That is, according to the present invention, there is provided a vibration damping system for a building, comprising: a vibration damping base formed on a base of a building by a reinforced concrete pavement; a vibration damping upper plate provided on an upper portion of the vibration damping base, A vibration-proof cylinder provided at equal intervals of three or more between the upper plates, and a vibration-proof cylinder connected to each of the vibration-proof cylinders through a vibration-damping common pipe, And a cushion elastic means provided between the anti-vibration cushion and the anti-vibration top plate for adjusting the cushion force of the anti-vibration cushion.

The present invention is characterized in that the anti-vibration cushion is provided with an anti-vibration pressure control system by supplying or discharging oil according to the pressure change of the anti-vibration cushion according to the vibration caused by the earthquake.

According to an aspect of the present invention, there is provided an anti-vibration pressure control system, comprising: a dust-proof oil supply pump for pumping oil in an oil tank to an anti-vibration cushion in accordance with a pressure of an anti-vibration cushion; An oil pressure sensor provided in the anti-vibration cushion, an oil pressure sensor provided in the anti-vibration oil discharge pipe, a supply check valve provided in the anti-vibration oil supply pipe, And an anti-vibration controller for controlling the operation of the anti-vibration oil supply pump and the discharge valve on the pressure value input from the sensor.

The present invention is characterized in that it is provided with a side vibration damping means provided between a lower portion of the vibration-proof cylinder and a counter seat to buffer side vibrations.

The present invention is characterized in that the side vibration damping means comprises a side slip seat plate fixed to the anti-vibration seat and a side slip cylinder plate provided at the bottom of the anti-vibration cylinder, a side slip oil seal And a side cover tube which surrounds the side slip oil portion between the side slip seat plate and the side slip cylinder plate so as to prevent leakage and restricts the side flow by elasticity.

The present invention is characterized in that the lateral vibration damping means is formed such that the lateral slipper seat plate is inclined from the outer side to the center at a lower center portion than the rim portion so as to be in- And is formed so as to be inclined from the outer side toward the center.

In the present invention, an oil filled groove is formed between the side slip seat plate and the side slip cylinder plate so as to form a circular band on the inner surface of the side slip seat plate and the side slip cylinder plate so as to uniformly fill the side slip oil. .

Accordingly, the present invention provides a vibration damping cylinder comprising at least three vibration dampers installed at equal intervals between a vibration damping counter and a vibration damping upper plate, a vibration damping cylinder connected to the vibration damping cylinder through a vibration damping common pipe, And a cushion elastic means provided between the anti-vibration cushion and the vibration-damping upper plate to adjust the cushion force of the anti-vibration cushion, thereby reducing the support shock applied to the structure in the event of an earthquake, So that the damage to the building due to the damage is minimized.

1 is a schematic view showing an embodiment of the present invention.
2 is an exemplary view showing an example of the configuration of the vibration-proof cylinder and the vibration-damping cushion of the present invention.
3 is a sectional view showing an example of the internal structure of the vibration-damping cushion of the present invention.
4 is a view showing an example of the configuration of a dust-suppression pressure regulating system of the present invention.
5 is a sectional view showing an example of the configuration of the side vibration damping means of the present invention.
6 is a sectional view showing still another embodiment of the side vibration damping means of the present invention.

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

The present invention minimizes damage to a building caused by an earthquake by mitigating a support shock applied to a building in the event of an earthquake. It is to be understood that the terms and words used in the specification and claims are not to be construed as limited in ordinary or dictionary terms And the inventor should interpret the meaning and the concept in accordance with the technical idea of the present invention based on the principle that the concept of the term can be appropriately defined in order to explain its own invention in the best way.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

That is, in the vibration damping system of a building, the vibration damping system comprises a vibration damping base 2, a vibration damping upper plate 3, a vibration damping cylinder 100, a vibration damping cushion 200 and a cushioning elastic means 210.

Here, the dustproof bed 2 is formed in a plate shape by the insertion of reinforced concrete on the foundation of a building.

And a steel plate may be installed on the upper portion of the dustproof bed 2 as required.

The vibration-damping upper plate 3 is installed on the upper portion of the vibration-proof platform 2 and is made of iron-cement concrete or steel plate, and can be formed integrally with the building.

In addition, the vibration-proof cylinder 100 is provided at three or more intervals between the vibration deadening bed 2 and the vibration-damping upper plate 3, and is installed at regular intervals.

The dust-proof cylinder 100 may be installed along the rim of the dust-proof bed 2 and may be formed in multiple rows between the rim and the center of the dust-proof bed 2.

The vibration-proof cylinder 100 is composed of a cylinder filled with oil and a piston projected and dumped by the oil in the cylinder, a cylinder mounted on the side of the vibration-proof seat 2, and a piston mounted on the side of the vibration- .

The vibration-damping cushion 200 is formed in a cylindrical shape and has a cushion cylinder in which an oil-filled space is formed therein. The vibration-damping cushion 200 is provided on the upper side of the cushion cylinder, And a cushion piston supported by a cushion spring so as to be able to buffer the cushion piston.

In addition, the cushion elastic means 210 is formed of an elastic body such as a spring or a rubber plate. When the building is overloaded due to an earthquake, the anti-vibration cushion 200 The cushion spring of the vibration-damping cushion 200 is supported so that the cushion force can be adjusted.

In the embodiment of the present invention, the vibration-damping cushion 200 is provided with the vibration-damping pressure control system 300 by supplying or discharging the oil according to the pressure change of the vibration-damping cushion 200 according to the vibration caused by the earthquake .

The vibration damping pressure control system 300 includes a vibration damping oil supply pump 320 for pumping the oil in the oil tank 310 to the vibration damping cushion 200 according to the pressure of the vibration damping cushion 200, A dustproof oil discharge pipe 331 for discharging oil to the oil tank 310 when the pressure of the dustproof cushion 200 rises; A supply check valve 322 provided in the oil supply pipe 321, a discharge valve 330 provided in the dustproof oil discharge pipe 331, an oil pressure sensor 340 provided in the dustproof cushion 200, And a vibration controller 350 for controlling the operation of the dust-proof oil supply pump 320 and the discharge valve 330 on the pressure value input from the pressure sensor 340.

Further, in the practice of the present invention, it is possible to provide the side vibration damping means 110 provided between the lower portion of the vibration-proof cylinder 100 and the anti-vibration seat to buffer the side vibration.

The side vibration damping means 110 includes a side slip seat plate 111 fixed to the vibration damping seat 2, a side slip cylinder plate 112 provided below the vibration damping cylinder 100, a side slip seat plate 111, A side slip mist part 113 filled with side slip oil is sandwiched between the side slip cylinder plates 112 and an outer side slip mist part 113 is sandwiched between the side slip seats 111 and the side slip cylinder plates 112 And a side cover tube (114) for preventing wrapping leakage and restricting the elasticity of the side flow.

Meanwhile, the side slip valve plate 110 is formed such that the side slip valve plate 111 is sloped from the outside toward the center toward the center, lower than the rim portion so that the side slip valve plate 110 can be restored to its original position relative to the side vibration, (112) may be inclined from the outer side toward the center so that the central portion protrudes downward from the edge portion.

In addition, between the side slip seat plate 111 and the side slip cylinder plate 112, a circular band is formed on the inner surfaces of the side slip seat plate 111 and the side slip cylinder plate 112 so as to uniformly fill the side slip oil. And forming an oil filled groove formed at equal intervals.

Hereinafter, the operation and effect of the application of the present invention will be described.

As described above, in the vibration damping system for a building, the vibration damping platform 2 formed in a plate shape by the casting of reinforced concrete on the foundation of the building and the vibration damping roof plate 2 formed on the upper part of the vibration damping platform 2, A dustproof cylinder 100 provided at equal intervals in at least three positions between the dustproof counter seat 2 and the dustproof upper panel 3; A vibration damping cushion 200 connected to each of the vibration damping cylinders 100 through the vibration damping common pipe 120 to control a sudden change in internal pressure of the vibration damping cylinder 100 due to an earthquake, And a cushion elastic means 210 for adjusting a cushion force of the vibration-damping cushion 200, the support shock applied to the building is alleviated when an earthquake occurs, so that damage to the building due to an earthquake is minimized .

In the embodiment of the present invention, the vibration-damping cushion 200 is provided with the vibration-damping pressure control system 300 by supplying or discharging the oil according to the pressure change of the vibration-damping cushion 200 according to the vibration caused by the earthquake .

The vibration damping pressure control system 300 includes a vibration damping oil supply pump 320 for pumping the oil in the oil tank 310 to the vibration damping cushion 200 according to the pressure of the vibration damping cushion 200, A dustproof oil discharge pipe 331 for discharging oil to the oil tank 310 when the pressure of the dustproof cushion 200 rises; A supply check valve 322 provided in the oil supply pipe 321, a discharge valve 330 provided in the dustproof oil discharge pipe 331, an oil pressure sensor 340 provided in the dustproof cushion 200, And a vibration controller 350 for controlling the operation of the dust-proof oil supply pump 320 and the discharge valve 330 on the pressure value input from the pressure sensor 340.

In the embodiment of the present invention, the side vibration damping means 110 is provided between the lower portion of the vibration damping cylinder 100 and the anti-vibration seat so as to buffer lateral vibration, A side slip cylinder plate 112 provided at a lower portion of the vibration-proof cylinder 100 and a side slip cylinder plate 112 fixed to the side plate 2, The side slip mist part 113 filled with the slip oil is wrapped around the side slip mist part 113 between the side slip stool plate 111 and the side slip cylinder plate 112 to prevent the leakage of the side slip mist part 113, The side slip cylinder plate 112 of the side vibration damping means 110 is moved to the side of the side wall of the building in response to an earthquake, If the side cover tube 114 is located, It is to restrict the flow of deopan and restore it to its original position.

In the meantime, in the practice of the present invention, the side vibration damping means 110 is formed such that the side slip side plate 111 is inclined from the outside toward the center at a lower center than the rim, and the side slip cylinder plate 112, The slope of the side slipper cylinder plate can be restored to the original position of the side slipper cylinder plate with respect to the side vibration.

In addition, in the practice of the present invention, when oil filling grooves are formed on the inner surfaces of the side slip seat plate 111 and the side slip cylinder plate 112, 111 and the side slip cylinder plate 112 are uniformly filled with the side slip oil so that the side slip cylinder plate 112 is smoothly sideways.

1: Building 2: Dustproof seat 3: Dustproof top plate
4: Oil
100: anti-vibration cylinder 110: side vibration buffering means 111: side slip plate
112: side slip cylinder plate 113: side slip open part 114: side cover tube
120: anti-vibration shielding pipe
200: anti-vibration cushion 210: cushion elastic means
300: anti-vibration pressure control system 310: oil tank 320: anti-vibration oil supply pump
321: dustproof oil supply pipe 322: supply check valve
330: discharge valve 331: dustproof oil discharge pipe 340: oil pressure sensor
350: Anti-vibration controller

Claims (3)

In a vibration damping system of a building;
(2) formed on the foundation of a building by reinforced concrete casting and a dustproof upper plate (3) which is installed on the upper part of the vibration damping platform (2) and made of iron concrete or steel plate, The dustproof cylinder 100 is provided at three or more positions between the top plate 3 and the dustproof cylinder 100 so as to be equidistantly spaced from each other. The dustproof cushion 200 is connected to the dustproof cushion 200 through a pipe 120 to control a sudden change in the pressure in the dustproof cylinder 100 due to an earthquake shock and a dustproof cushion 200 provided between the dustproof cushion 200 and the dustproof upper panel 3, And a cushion elastic means (210) for adjusting the cushion force.
The method of claim 1, further comprising:
And an oil pressure control system (300) for supplying or discharging oil to or from the vibration damping cushion (200) in accordance with a pressure change of the vibration damping cushion (200)
The vibration damping pressure control system 300 includes a vibration damping oil supply pump 320 for pumping the oil in the oil tank 310 to the vibration damping cushion 200 according to the pressure of the vibration damping cushion 200, A dustproof oil discharge pipe 331 for discharging oil to the oil tank 310 when the pressure of the dustproof cushion 200 rises; A supply check valve 322 provided in the oil supply pipe 321, a discharge valve 330 provided in the dustproof oil discharge pipe 331, an oil pressure sensor 340 provided in the dustproof cushion 200, (350) for controlling the operation of the dust-proof oil supply pump (320) and the discharge valve (330) to the pressure value inputted from the pressure sensor (340).
The method of claim 1, further comprising:
And a side vibration damping means (110) provided between a lower portion of the vibration-proof cylinder (100) and a counter seat to buffer lateral vibration,
The side vibration damping means 110 is attached to the side slip side plate 111 fixed to the vibration damping base 2 and the side slip cylinder plate 112 provided below the vibration damping cylinder 100 and the side slip side plate 111, A side slip mist part 113 filled with side slip oil is sandwiched between the slip cylinder plates 112 and a side slip mist part 113 is wrapped around the side slip mist part 113 between the side slip seats 111 and the side slip cylinder plates 112 And a side cover tube (114) for preventing leakage and restricting elasticity of the side flow.

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