KR102081790B1 - vibration isolation device - Google Patents

Abstract

The present invention is provided to solve the above problems. The object of the present invention is to provide a vibration isolating device capable of preventing an upper structure from being damaged by vibration by preventing horizontal vibration of a lower structure from being transmitted to the upper structure by inserting an isolating means between the lower structure and the upper structure. To this end, the vibration isolating device of the present invention includes: the lower structure fixed to the ground; the upper structure disposed above the lower structure; and the vibration isolating means disposed between the lower structure and the upper structure.

Description

Vibration isolation device

The present invention relates to a seismic isolating device, in particular, it is mounted on the lower part of a building or a bridge, and relates to an isolating device for preventing the shaking of the ground from being transmitted to the upper structure.

Patent invention 001 relates to a structure isolating device, the lower member is provided on the support structure having at least one pair of first support facing each other protruding upward at intervals; An upper member provided on a bottom surface of the superstructure 200 supported by the support structure, having at least one pair of second support units projecting downwardly and facing each other at intervals; A first intermediate member disposed on the lower member between the pair of first supports and slidingly installed in the horizontal direction with the lower member, and having a first groove or a first protrusion formed upward; At least one pair of first horizontal elastic bodies installed between both side surfaces of the first intermediate member and the pair of first supports to buffer horizontal forces acting between the first intermediate member and the lower member; It is disposed on the bottom surface of the upper member between the pair of second supports so as to be slidable in the horizontal direction with the upper member, and formed toward the lower side to be coupled to the first groove or the first protrusion to form the first intermediate For the member, a second intermediate member having a second protrusion or a second groove to limit movement in at least one horizontal direction, and between the two side surfaces of the second intermediate member and the pair of second supports are respectively installed. It relates to a structure isolating device comprising a; a second horizontal elastic body that buffers the horizontal force acting between the second intermediate member and the upper member.

In patent invention 002, the upper side member 3 having a spherical first contact surface 2 formed on the lower surface, and a second spherical contact surface 5 having a spherical surface formed on the upper surface, and the peripheral wall portion 6 is annexed to its periphery In the middle between the lower member 7 and the upper member 3 and the lower member 7, a flange 8 is annexed in the middle, between the upper and upper members 3 of the electric flange 8 and the flange An elastic member 9 is fixedly attached between the lower part and the lower member 7 of (8), the upper first supporting surface 10 is in contact with the first contact surface 2 and the lower second supporting surface 11 In the seismic isolating device 100 of the structure consisting of the movement member 12 installed in contact with the second sugar contact surface 5, the first sugar contact surface 2 and the lower member 7 of the upper member 3 Small protrusions are protruded on the first support surface 10 and the second support surface 11 of the second contact surface 5 and the movement member 12 contacting the second contact surface 5, and an elastic filling material inside the main wall part 6 ( 13) is a building characterized in that the filling Gin is for the device.

Patent invention 003 is a spring-resilient friction isolator installed between the upper structure and the fixing plate on the lower column, the lower plate is installed upright shear key in the center; A vertical load receiving member fixedly installed on the lower plate in a state fitted to the shear key to accommodate the vertical load; A connecting sphere fitted on the shear key and installed on the vertical load receiving member while being fixed to the lower plate; A friction material installed on the connecting sphere to control displacement by performing a friction damping function; A spring coupled to perform a restoring function on all sides of the connecting sphere; A height adjustment member installed for adjusting the height of the surface between the connecting sphere and the friction material and adjusting the height of the friction material so that the friction material or the spring can be replaced; An opening and closing protection box installed on the height adjustment member so as to protect the friction material and the spring from external impacts; It comprises a protective case that is installed on the outside of the open-closed protective box so as to wrap and protect the open-closed protective box, the protective case is a plurality of case members are assembled to each other by a fastening member to be detachable / attachable The magnets are installed on the lower plate and the protective case so as to control vertical disparity displacement with a repulsive force, and fasteners are respectively installed on the opened and closed protective boxes and protective cases to fix the protective case in the vertical direction. The protective box and the protective case are made of an alloy material of lead and iron plates having radiation resistance, fire resistance, water resistance, and impact resistance, and the protective case is a spring-recovered friction, characterized in that it is possible to seal and protect the isolator. It is about an isolator.

Patent invention 004, the base for supporting the wind tower; A lower flange provided under the wind tower; A first seismic material assembly formed of a plurality of seismic materials provided between the base and the lower flange to block vibration; A base extension extending upward from the base and bent from the top toward the wind tower; And, provided between the base extension portion and the lower flange to block vibration, a second surface vibration assembly consisting of a plurality of vibration isolation material for dispersing the tensile force applied to the first vibration isolation assembly; includes, the The seismic isolation materials of the first seismic isolation assembly or the second seismic isolation assembly are serially assembled to correspond to the lower circumference of the lower flange of the wind tower, and adjacent seismic isolation materials are mutually combined to form a circumferential shape, respectively. The isolator of the present invention relates to an isolator for a wind tower, characterized in that it comprises an elastic material layer and a rigid material layer that are alternately stacked.

KR 10-0757749 B1 (Registration date September 05, 2007) KR 10-0469520 B1 (Registration date January 24, 2005) KR 10-1483997 B1 (Registration date January 13, 2015) KR 10-0757749 B1 (Registration date 05/05/2018)

The present invention is to solve the above problems, by isolating means is disposed between the sub-structure and the superstructure, by preventing the vibration in the horizontal direction of the substructure is transmitted to the superstructure that the superstructure is damaged by vibration An object of the present invention is to provide an isolating device capable of being prevented.

In order to achieve the above object, the seismic isolator of the present invention includes a substructure fixed to the ground; An upper structure disposed on the lower structure; An isolating means disposed between the lower structure and the upper structure; It includes.

A first side wall protruding upward from the substructure; A second side wall protruding downward from the superstructure, provisional coupling means disposed between the first side wall and the second side wall; It includes.

A temporary fixing means that allows the lower structure and the upper structure to be coupled to each other during construction, and is removed after completion of the construction; It further includes.

Coupling means for coupling and fixing the substructure to the ground; It further includes.

A temporary fixing means that allows the lower structure and the upper structure to be coupled to each other during construction, and is removed after completion of the construction; It further includes.

Coupling means for coupling and fixing the substructure to the ground; It further includes.

A support beam provided on an upper portion of the superstructure; A rib connecting the superstructure and the support beam; It further includes.

The seismic isolation device of the present invention as described above has the following effects.

Since the seismic isolation means is inserted and arranged between the substructure and the superstructure, it prevents the horizontal vibration of the substructure from being transmitted to the superstructure, thereby preventing the superstructure from being damaged by vibration.

The seismic isolation means comprises a first plate fixed to the lower structure and a second plate fixed to the upper structure and disposed in surface contact with the upper portion of the first plate, so that the first plate vibrates in the horizontal direction. When it has the effect of reducing the vibration transmitted to the second plate by the sliding action of the surface contact portion of the first plate and the second plate.

It is mounted between the first side wall and the second side wall, and when the intensity of vibration is less than a certain value, provisional coupling means is provided to prevent the substructure and the superstructure from moving independently in the horizontal direction, so that the substructure does not move arbitrarily. It has the effect of improving durability.

1 is a perspective view of an isolator according to an embodiment of the present invention,
Figure 2 is an exploded perspective view of the seismic isolation device according to an embodiment of the present invention,
Figure 3 is a cross-sectional view seen from AA of Figure 1,
Figure 4 is a cross-sectional view seen from BB of Figure 1,
Figure 5 is an enlarged cross-sectional view showing a temporary coupling means of the seismic isolation device according to an embodiment of the present invention,
Figure 6 is a cross-sectional view showing the operation of the temporary coupling means of the seismic isolation device according to an embodiment of the present invention,
7 is a cross-sectional view showing a state in which the temporary fixing means of the seismic isolation device according to an embodiment of the present invention is mounted.

Hereinafter, the most preferred embodiment of the present invention will be described in detail in order to describe in detail that a person skilled in the art to which the present invention pertains can easily implement the present invention. The citation numbers presented in the above embodiments are not limited to the presented numbers, and are applicable to other embodiments. It is equivalent to an object that exerts the same purpose and effect as the configuration presented in this embodiment.

[Example 1-1] The present invention is an invention for an isolating device, and the substructure 100 fixed to the ground; An upper structure 200 disposed on the lower structure 100; An isolating means 300 disposed between the lower structure 100 and the upper structure 200; It consists of a configuration comprising a.

[Example 1-2] The present invention is an invention for an isolating device, and in Example 1-1, the isolating means 300 is a first plate 310 disposed on an upper portion of the lower structure 100. ; A second plate 320 disposed between the first plate 310 and the superstructure 200; It consists of a configuration comprising a.

[Example 1-3] The present invention is an invention for an isolator, and in Example 1-2, the first plate 310 and the second plate 320 are formed of an engineering plastic material. .

[Example 1-4] The present invention is an invention for an isolator, and in Example 1-2, the first plate 310 is fixed to the lower structure 100, and the second plate 320 Includes fixing to the superstructure 200.

The present invention has an object to be mounted on the lower portion of a building or bridge to prevent the shaking of the ground is transmitted to the upper structure. The lower structure 100 is formed in the shape of a square plate, is fixedly installed on the ground, and the first side wall 110 of a square frame shape is protruded on the top. The first plate 310 is formed in a flat hexahedral shape and is inserted into and fixed to the inside of the first side wall 110. The upper structure 200 is formed in a square plate shape, and a second side wall 210 of a square frame shape is protruded at the bottom. The second side wall 210 is formed to have a larger horizontal and vertical length than the first side wall 110 and is disposed to surround the outside of the first side wall 110. The second plate 320 is formed in a square plate shape having a smaller horizontal and vertical length than the first plate 310, is fixed to the lower portion of the upper plate, and the lower surface is disposed in contact with the upper surface of the first plate 310. .

When the ground shakes from side to side, the substructure 100 and the first plate 310 move left and right along with the ground, and the second plate 320 is in contact with the first plate 310 without moving. It is slid to, thereby preventing vibration from being transmitted to the upper structure through the first plate 310.

[Example 2-1] The present invention relates to an isolating device, and in Example 1-1, a first side wall 110 protruding upward from the substructure 100; A second side wall 210 formed to protrude downward from the superstructure 200; Provisional coupling means 400 disposed between the first side wall 110 and the second side wall 210; It consists of a configuration comprising a.

[Example 2-2] The present invention relates to an isolating device, and in Example 2-1, the first side wall 110 is formed to protrude in a square frame shape, and the second side wall 210 is the It includes a protrusion formed in a square frame shape surrounding the first side wall (110).

[Embodiment 2-3] The present invention is an invention for an isolating device, and in Embodiment 2-1, the provisional coupling means 400 is a fixed body mounted outside the first side wall 110 ( 410); A separation body 420 mounted inside the second side wall 210 and in contact with the fixed body 410; It consists of a configuration comprising a.

[Embodiment 2-4] The present invention is an invention for an isolating device, and in Embodiment 2-3, the fixing body 410 is composed of two and one side is disposed to be in contact with each other, and the separating body 420 is It consists of two, and is disposed on the other side of the fixed body 410, respectively.

[Embodiment 2-5] The present invention relates to an isolating device, and in Embodiment 2-3, a first inclined surface 411 is formed on the fixed body 410, and the separating body 420 is formed. And forming a second inclined surface 421 in contact with the first inclined surface 411.

[Embodiment 2-6] The present invention is an invention for an isolating device, and in Embodiment 2-3, it is inserted into the first side wall 110 and the fixed body 410 is inserted into the first side wall 110. ) Fixed to the first projection (430); A second fixing protrusion 440 inserted into the second side wall 210 and fixing the separator 420 to the second side wall 210; It consists of a configuration comprising a.

[Embodiment 2-7] The present invention is an invention for an isolating device, and in Embodiment 2-5, the second fixing protrusion 440 includes a cutting groove 441 being formed.

In the two fixing bodies 410, each one surface is disposed adjacent to each other, and the first inclined surface 411 is formed on the other surface, respectively. The first inclined surface 411 is from the first side wall 110 to the second side wall 210 ), It is formed to be inclined in the direction away from each other. Therefore, when the first side wall 110 is moved in the direction of the second side wall 210, the two separators 420 move in a direction away from each other.

In addition, a first fixing groove 111 into which the first fixing protrusion 430 is inserted is formed in the first side wall 110, and a second fixing protrusion into which the second fixing protrusion 440 is inserted into the second side wall 210. The groove 211 is formed.

In the initial installation state, the fixed body 410 is fixed to the first side wall 110, the separation body 420 is fixed to the second side wall 210, and the first inclined surface 411 of the fixed body 410 is Since the second inclined surface 421 of the separator 420 comes into contact, the first plate 310 and the second plate 320 are fixed to each other. When an earthquake or the like occurs, the lower structure 100 and the lower plate move in a horizontal direction, and the separating body 420 breaks the cutting groove 441 portion of the second fixing protrusion 440 while the second fixing protrusion 440 is broken. It is separated from and moves in the opposite direction of the fixed body (410).

The separated second fixing protrusion 440 can be reused after being recombined with a moving body and welding.

The cutting groove 441 is formed along the outer periphery of the end portion of the second fixing protrusion 440, that is, the portion adjacent to the separator 420, and the cutting groove 441 portion of the second fixing protrusion 440 is an earthquake, etc. It is desirable to have a strength that can be easily broken in the occurrence of.

[Example 3-1] The present invention is an invention for an isolator, and in Example 1-1, the lower structure 100 and the upper structure 200 are mutually coupled during construction, and after construction is completed. Temporary fixing means 500 to be removed; It consists of a configuration comprising a.

[Embodiment 3-2] The present invention relates to an isolating device, and in Embodiment 3-1, the temporary fixing means 500 includes a bolt.

[Example 3-3] The present invention is an invention for an isolating device, and in Example 3-1, the first through hole 150 into which the temporary fixing means 500 is inserted into the substructure 100 This is formed, the upper structure 200 includes a second through-hole 250 is formed that is connected to the first through-hole 150.

During construction, work is performed with the seismic isolation means 300 and the provisional coupling means 400 installed between the lower structure 100 and the upper structure 200. Therefore, to prevent the seismic isolation means 300 and the temporary coupling means 400 from being damaged or the substructure 100 and the superstructure 200 from being separated, the substructure 100 and the superstructure through the temporary fixing means 500 are prevented. It is preferable to temporarily fix and fix the (200). The bolt passes through the second through hole 250 and is inserted into the second through hole 250. At this time, a thread is formed on the inner circumferential surface of the second through hole 250, and the bolt is inserted and fastened.

[Embodiment 4-1] The present invention is an invention for an isolating device, and in Embodiment 1-1, there is provided a coupling means 600 for coupling and fixing the substructure 100 to the ground; It consists of a configuration comprising

[Embodiment 4-2] The present invention is an invention for an isolator, and in Embodiment 4-1, the coupling means 600 includes an anchor bolt.

The substructure 100 is installed on the ground, usually a portion where concrete is poured, and is preferably fixed with an anchor bolt that can be installed on the concrete.

[Embodiment 5-1] The present invention relates to an isolating device, and in Embodiment 1-1, a support beam 270 provided on an upper portion of the upper structure 200; A rib 280 connecting the upper structure 200 and the support beam 270; It consists of a configuration comprising a.

[Embodiment 5-2] The present invention is an invention for an isolating device, and in Embodiment 5-1, the support beam 270 is formed of any one of an H beam, an I beam, or a circular beam.

The support beam 270 is integrally coupled to the upper portion of the superstructure 200 by welding or the like, and the rib 280 is formed in a triangular shape between the side surface of the superstructure 200 and the top surface of the superstructure 200, It is welded between the support beam 270 and the superstructure 200 to be integrally coupled. In addition, a plurality of support beams 270 may be arranged at regular intervals along the periphery of the support beams 270.

[Example 6-1] The present invention relates to an isolating device, and in all of the examples presented above, the isolating means is self-lubricating.

The self-lubricating property of the present invention means oil resistance, and it is possible to prevent compression of the seismic isolation means from being integrated by the oil present therein.

[Example 6-2] The present invention is an invention for an isolating device, and in all the examples presented above, the friction coefficient of the isolating means is formed in the range of 0.1 to 0.4. The friction coefficient corresponds to a condition that causes slipping in a serious condition of an intensity of 5 or more in the entire range of the oil-resistant engineering plastic.

The present invention is not limited to this, and may be modified in various ways by those skilled in the art without departing from the spirit and scope of the appended claims below, and thus such modifications should be interpreted as being within the scope of the present invention. something to do.

100: substructure 110: first side wall
111: 1st fixed groove 150: 1st through hole
200: superstructure 210: second side wall
211: 2nd fixed home 250: 2nd through hole
270: support beam 280: rib
300: seismic isolation means 310: first plate
320: second plate 400: temporary coupling means
410: fixed body 411: the first slope
420: Separator 421: Second slope
430: first fixed protrusion 440: second fixed protrusion
441: cutting groove 500: temporary fixing means
600: combining means

Claims (5)

A substructure fixed to the ground;
An upper structure disposed on the lower structure;
An isolating means disposed between the lower structure and the upper structure;
A first side wall protruding upward from the substructure;
A second side wall protruding downward from the superstructure;
Provisional coupling means disposed between the first side wall and the second side wall;
The seismic isolation means includes a first plate fixed to the lower structure;
A second plate fixed to the superstructure;
The provisional coupling means includes a fixed body mounted on the outside of the first side wall and having a first inclined surface;
A separator mounted inside the second side wall and having a second inclined surface in contact with the first inclined surface;
A second fixing protrusion inserted into the second side wall to fix the separator to the second side wall;
A cutting groove formed in the second fixing protrusion; Seismic isolation device comprising a.
delete According to claim 1,
A temporary fixing means that allows the lower structure and the upper structure to be coupled to each other during construction, and is removed after completion of the construction; Seismic isolation device further comprising a.
According to claim 1,
Coupling means for coupling and fixing the substructure to the ground; Seismic isolation device further comprising a.
According to claim 1,
A support beam provided on an upper portion of the superstructure;
A rib connecting the superstructure and the support beam; Seismic isolation device further comprising a.

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