KR102137866B1 - Pillar reinforcement method of Pilot building in case of earthquake - Google Patents

Abstract

The present invention relates to a method for reinforcing pillars of a pilotti building in the event of an earthquake, and when a seismic event occurs, a reinforcing member embedded in a horizontal beam installed between pillars of a pilotti building is lowered to prevent damage due to an earthquake.
The present invention has a remarkable effect of absorbing shock in the event of an earthquake and protecting structures, such as buildings, by changing its location in a small distance in response to the shock.

Description

Pillar reinforcement method of Pilot building in case of earthquake}

The present invention relates to a method of reinforcing pillars of a pilotti building during an earthquake, and more specifically, to prevent damage caused by an earthquake by reinforcing a built-in reinforcing member embedded in a horizontal beam installed between pillars of a piloti building during an earthquake. It relates to a method of reinforcing pillars of a pilotti building in the event of an earthquake that absorbs shock and protects structures such as buildings by changing its position in a small distance in response to the shock.

In general, when an earthquake occurs, the building shakes, and columns, floors, and ceilings crack and break. Pilotti buildings are especially vulnerable to safety. And even if it does not collapse, there is a risk of safety accidents if left unattended. For the pilotti building, as described in the prior art in Patent No. 10-0973152, in general, pilotti is formed on the ground layer by lifting and constructing a building with a plurality of pillars on the ground in a multi-storey building having a plurality of floors. It means space, and is formed for the purpose of securing a passage space on the ground floor.

In the case of a multi-storey building with a pilotti, the first floor can be used as a parking lot, and the first floor is opened to the general public to free pedestrians and vehicles to pass. Publication No. 10-0973152 includes a pillar member forming a pilotti on the ground, including first, second, and third pillars that sequentially protrude on the ground at intervals and support multi-story buildings; A pilotti reinforcing means for reinforcing the pillar member, the piloti reinforcing means being installed and fixed to the lower slab portion of the multi-story building and absorbing load by plastic deformation; A horizontal beam member mounted on the upper surface and horizontally installed at a lower portion of the multi-story building; A first support beam member erected vertically from the ground so that one side surface is supported on the inner surface of the first pillar, and supports a lower surface of one side of the cross beam member; A second support beam member standing on the ground so that one side surface is supported on the inner surface of the third pillar part and supporting the lower side of the other side of the cross beam member; A pilotti reinforcement structure of a multi-story building has been disclosed, characterized in that it comprises a third support beam member that is vertically standing on the ground to be supported on the front surface of the second pillar part and supports a lower surface of the cross beam member.

In addition, in the registered patent publication No. 10-0617395, a block-out portion is formed to expose a column cut portion that is cut off by exposing a reinforcing bar embedded inside a building column, and a lower portion is supported on the lower surface around the lower column to wrap around the lower column. A lower abstraction stand including H-beams installed so as to be provided; A lifting means installation unit installed to support a lifting means including a hydraulic jack on the upper surface of the lower pedestal; And an upper pedestal comprising an H-beam installed between the upper surface of the elevating means and the ceiling surface around the upper column to be wrapped around the upper part of the column, wherein the elevating means can be operated stepwise with a time difference. A lifting and maintenance device including a screw jack is further installed in a lifting means installation unit, and a building repair system is disclosed through a column raise, which is characterized in that the upper part of the column that is cut off by the operation of the lifting means is raised.

However, the prior arts have a disadvantage in that the structure cannot be safely protected when a strong impact or weight is applied to the pillar of the pilotti building during an earthquake, and it is difficult to repair the structure after an earthquake.

Therefore, the present invention was devised to solve the above problems, and the present invention absorbs a shock in the event of an earthquake and changes the position by a small distance in response to the shock to protect the structures such as buildings. Is to provide.

The present invention relates to a method for reinforcing pillars of a pilotti building in the event of an earthquake, and a reinforcing member embedded in a horizontal beam installed between pillars of a pilotti building in case of an earthquake is lowered to prevent damage due to an earthquake.

Therefore, the present invention has a remarkable effect of absorbing shock in the event of an earthquake and protecting structures, such as buildings, by changing the location at a small distance in response to the shock.

1 is a state diagram of a built-in electric cylinder on the horizontal beam of the pilotti building of the present invention
2 is a state diagram of the electric cylinder protruding from the horizontal beam of the pilotti building of the present invention

The present invention relates to a method of reinforcing pillars of a pilotti building in the event of an earthquake, and a reinforcing member embedded in a horizontal beam installed between the left and right pillars of a pilotti building in case of an earthquake is lowered to prevent damage due to an earthquake.

In addition, the horizontal beam has a storage groove inlet at the bottom and is characterized in that the storage member is inserted and stored in the storage groove.

In addition, the storage groove is characterized in that the cover is installed.

In addition, the reinforcing member is in the form of an electric cylinder, is stored in a horizontal state, and a hinge is formed at one end, and when an earthquake occurs, it rotates by the rotational force of the electric motor around the hinge to change the direction vertically so that the electric cylinder faces downward. It is characterized by touching the floor.

In addition, the electric cylinder is composed of a cylinder and a rod that reciprocates inside, and is characterized in that the rod is drawn out of the cylinder and has a longer length.

In addition, the storage groove is equipped with a sensor that detects the seismic strength, and when the earthquake occurs, it is rotated by the rotational force of the electric motor around the hinge to change the direction vertically, so that the electric cylinder touches the floor toward the bottom. It is characterized by.

In addition, the storage groove is equipped with a sensor that detects the seismic intensity, and if an earthquake of more than a certain intensity continues for a certain period of time when an earthquake occurs, it rotates by the rotational force of the electric motor around the hinge to change the direction vertically, thereby lowering the electric cylinder. It is characterized by touching the floor toward the furnace.

The present invention will be described in detail with reference to the accompanying drawings. Figure 1 is a state diagram of the electric cylinder is built in the horizontal beam of the present invention pilotti building, Figure 2 is a state diagram of the electric cylinder protruding from the horizontal beam of the present invention pilotti building.

The present invention is to prevent damage caused by an earthquake when a reinforcement member installed on a horizontal beam installed between pillars of a pilotti building descends when an earthquake occurs.

In the horizontal beam, there is an opening of a storage groove in which a space is formed so that a reinforcing member is embedded in the lower portion, and a reinforcing member is inserted and stored in the storage groove.

A cover is installed in the storage groove and closed, and when opened, when the cylinder moves vertically, the cover is opened to the outside by rotating the hinge with its force.

The reinforcing member is in the form of an electric cylinder operated by a conventional electric motor, and is stored in a horizontal state, and a hinge is formed at one end. By changing the direction vertically to the ground, the electric cylinder touches the floor toward the bottom to support the horizontal beam.

The electric cylinder is composed of a cylinder and a rod that reciprocates inside, so that the rod is drawn out of the cylinder and has a longer length.

On the other hand, the present invention is provided with a sensor for detecting the seismic intensity of a tolerance in the storage groove, and when the earthquake occurs, it is rotated by the rotational force of the electric motor around the hinge, and changes the direction vertically, so that the electric cylinder moves downward. To reach the bottom.

As another embodiment, the storage groove is provided with a sensor for detecting the intensity of the earthquake, and when an earthquake of more than a certain intensity continues for a certain period of time in the event of an earthquake, it rotates by the rotational force of the electric motor around the hinge to change the direction vertically. Is to reach the bottom and touch the floor.

Therefore, the present invention has a remarkable effect of absorbing shock in the event of an earthquake and protecting structures, such as buildings, by changing the location at a small distance in response to the shock.

10: electric cylinder 20: hinge
30: storage groove 40: horizontal beam
50: left column 60: right column

Claims (3)

In the case of an earthquake, the reinforcement member embedded in the horizontal beam (40) installed between the pillars of the pilotti building is lowered to prevent the damage caused by the earthquake.
The horizontal beam 40 has an entrance to the storage groove 30 in which a space in which a reinforcing member is to be embedded is formed, and a reinforcing member is inserted and stored in the storage groove 30, and a cover is installed in the storage groove 30. When closed, when the electric cylinder 10 moves in the vertical direction, the cover is opened to the outside with the hinge 20 as the center of rotation by its force.
The reinforcing member is in the form of an electric cylinder 10 operated by an electric motor, and is stored in a horizontal state, and a hinge 20 is formed at one end, and the electricity embedded in a separate insertion groove around the hinge 20 when an earthquake occurs Rotating by the rotational force of the motor to change the direction perpendicular to the ground so that the electric cylinder 10 contacts the floor toward the bottom to support the horizontal beam 40, wherein the electric cylinder 10 reciprocates the cylinder and the inside. Consists of a moving rod, the rod is withdrawn from the cylinder, and the length is longer.
The storage groove 30 is provided with a sensor that detects the seismic intensity, and when the earthquake occurs, it rotates by the rotational force of the electric motor around the hinge 20 if it is above the set intensity, and changes the direction vertically, so that the electric cylinder 10 is installed. A method of reinforcing pillars of a pilotti building in the event of an earthquake, characterized by touching the floor toward the bottom delete delete

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