KR20200014407A - Damping wall - Google Patents

Abstract

The damping wall 1 includes a pair of narrow sidewall plates 4 and 5, a pair of wide sidewall plates 6 and 7, a pair of narrow sidewall plates 4 and 5, and a pair of wide sidewall plates ( 6 and 7 have a bottom wall plate 8 fixed by welding and a lower portion of the pair of narrow side wall plates 4 and 5 located below the bottom wall plate 8 and the bottom wall plate 8. 9 and 10, the box body 12 fixed to the lower support means 2 via the lower fixing means 11 and the box body 12 are arranged in the box body 12 and fixed to the upper support means 3. The resistance plate 16 fixed via the means 15 and the viscous body 17 filled in the clearance gap 14 in the box 12 are provided.

Description

Damping wall

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vibration damping wall that damps vibrations such as earthquakes, winds, and traffic vibrations applied to buildings such as office buildings, apartment houses, and single houses.

A box having an opening in the upper part and fixed to the lower beam at the bottom, a resistance plate disposed in the box having a gap with respect to the box, and fixed to the upper beam in the upper part, With a filled viscous body, in the event of an earthquake, wind, traffic vibration, etc., the viscous body accommodated in the box at the same relative horizontal displacement between the box and the resistance plate based on the relative horizontal displacement of the upper beam relative to the lower beam. Background Art A vibration damping wall that generates viscous shear deformation and attenuates vibrations such as earthquake, wind, traffic vibration, etc. by damping force caused by the viscous shear deformation is known in the art.

Patent Document 1: Japanese Patent Application Laid-Open No. 2000-73607

In such a damping wall, the box and the resistance plate are fixed to the lower beam and the upper beam, respectively, but in the relative horizontal displacement between the box and the resistance plate via the lower beam and the upper beam due to an earthquake or the like, the resistance plate In order to withstand a large horizontal force and bending moment, and to withstand shear and tensile forces based on this horizontal force and bending moment, a box and a resistance plate are respectively applied to the lower beam and the upper beam by using a plurality of bolts and fixing steel sheets, respectively. In the vibration damping wall described in Patent Literature 1, the box body is attached to the side end portion of the box body in which a strong force due to the bending moment is applied in the coupling mechanism connecting the box body and the lower girder. As a result of the use of a separate member which is a separate body with respect to the area of the side end of the box for the large bending moment applied to the resistance plate, A limit tensile strength in the connecting mechanism of In, and the technique described in Patent Document 1, there is a problem, the application of the vibration damping wall is predicted that a large bending moment is generated.

This invention is made | formed in view of the said various point, and the objective is box body to lower support means, such as a lower girder, with sufficient strength with respect to the tensile force which arises from the big bending moment in a resistance plate. The site | part of the side end of this is firmly fixed, and in addition, in manufacture, non-destructive test, such as an ultrasonic flaw test, can be skipped and it is providing the damping wall which can reduce the number of assembly processes.

The vibration damping wall of the present invention has a lower support means and an upper support means in a building wall, a pair of narrow sidewall plates, a pair of wide sidewall plates and a bottom wall plate wider than a pair of narrow sidewall plates, A box fixed to the lower support means via a lower fixing means at a lower portion of the bottom wall plate and a pair of narrow sidewall plates positioned below the bottom wall plate, and disposed in the box having a gap with respect to the box; In addition, the upper support means is provided with a resistance plate fixed via an upper fixing means and a viscous body filled in the gap, and the lower fixing means includes a lower surface of the bottom wall plate of the box and a pair of narrow side wall plates. A first gusset plate secured to the side of the lower portion of the second gusset plate, a second gusset plate disposed within the same vertical surface with respect to the first gusset plate and secured to the lower support means; And at least one pair of splice plates disposed facing each of the second gusset plates and bolts tightening the at least one pair of splice plates to each of the first and second gusset plates.

According to the vibration damping wall of the present invention, the first gusset plate of the lower fixing means is fixed to the lower surface of the bottom wall plate of the box and the side surfaces of the lower part of the pair of narrow sidewall plates located below the bottom wall plate, respectively. Since at least a pair of splice plates are fastened together to each of the first and second gusset plates by bolts, the tensile strength sufficient for the tensile force occurring at the site of the side end of the box due to the large bending moment in the resistance plate. In addition, the site | part of the side end of a box body is firmly fixed to lower support means, such as a lower girder, In addition, in the manufacture, nondestructive test, such as an ultrasonic flaw test, can be skipped and the number of assembly processes can be reduced. have.

Another vibration damping wall of the present invention includes a lower support means and an upper support means in a building wall, a pair of narrow sidewall plates, a pair of wide sidewall plates and a bottom wall plate wider than a pair of narrow sidewall plates, In addition, the bottom wall plate and the box body fixed to the lower support means via the lower fixing means in the lower portion of the pair of narrow side wall plate located below the bottom wall plate and disposed in the box having a gap with respect to the box body And a resistance plate fixed to the upper support means via the upper fixing means, and a viscous body filled in the gap. The lower fixing means includes a lower surface of the bottom wall plate of the box and a pair of narrow sidewalls. A first gusset plate fixed to the side of the lower part of the plate, a second gusset plate disposed in the same vertical plane with respect to the first gusset plate and fixed to the lower support means; At least one pair of splice plates disposed facing each of the first and second gusset plates, bolts tightening the at least one pair of splice plates together to the first and second gusset plates, respectively, the lower support means and the second gusset. One side plate fixed to one side end of the plate, the other side plate fixed to the other side end of the lower supporting means and the second gusset plate, and the lower part of one narrow side wall plate of the pair of narrow side wall plates The 1st splice plate mechanism connected to one side plate, and the 2nd splice plate mechanism which connects the lower part of the other narrow side wall plate of a pair of narrow side wall boards to the other side plate are provided.

In the other vibration damping wall of the present invention, the first gusset plate of the lower fixing means is fixed to the lower surface of the bottom wall plate of the box and to one side of the lower part of the pair of narrow side wall plates, while at least one pair of splices The plate is fastened together to each of the first and second gusset plates by bolts, and the lower part of one narrow side wall plate of the pair of narrow side wall plates is fixed to one side end of the lower supporting means and the second gusset plate. Connected to the side plates of the first splice plate mechanism, and the lower portion of the other narrow side wall plate of the pair of narrow side wall plates is fixed to the other side end of the lower supporting means and the second gusset plate. Since it is connected to the side plate by the 2nd splice plate mechanism, it has a more sufficient proof strength and is supported by lower support means, such as a lower girder. Tenaciously and the phase itself are fixed, in addition, it is possible to omit the non-destructive testing of the ultrasonic test or the like, it is possible to reduce the number of assembly processes.

In another vibration damping wall of the present invention, the first splice plate mechanism is, in a preferred example, facing one side of each of the lower side and one side plate of one narrow side wall plate with the first and second gusset plates interposed therebetween. A pair of first side end splice plates disposed in contact with each other, a second side end splice plate disposed to face the other side of each of the lower side and one side plate of one narrow side wall plate, and a pair of first side ends Another bolt for fastening the splice plate and the second side end splice plate together to the lower side and one side plate of one narrow side wall plate, and the second splice plate mechanism is, in a preferred example, the first and second gussets. A pair of third side end splices disposed opposite the side of each of the lower side of the narrow side wall plate and the other side plate with the plate in between A fourth side splice plate disposed to face the lower side of the other narrow side wall plate and the other side plate of the other side plate, and a pair of third side splice plates and fourth side splices; And other bolts fastening the plate together to the lower side of the other narrow side wall plate and to the other side plate. In these preferred examples, each of the second side splice plate and the fourth side splice plate has a first side end. The pair may correspond to the splice plate and the third side end splice plate, but may be one sheet instead.

According to the present invention, the box body is firmly fixed to the lower supporting means such as the lower girder with sufficient strength against the tensile force generated due to the large bending moment in the resistance plate. Non-destructive testing such as the above can be omitted, and a vibration damping wall capable of reducing the number of assembly steps can be provided.

BRIEF DESCRIPTION OF THE DRAWINGS The front explanatory drawing of the preferable specific example of embodiment of this invention.
FIG. 2 is a cross-sectional explanatory diagram of the II-II line shown in FIG. 1. FIG.
3 is a cross-sectional explanatory diagram of the III-III line shown in FIG. 1.
4 is a cross-sectional explanatory diagram of the IV-IV line shown in FIG. 1.
5 is a cross-sectional explanatory view of the VV line shown in FIG. 1.
6 is a front explanatory diagram of another preferred embodiment of the embodiment of the present invention.
FIG. 7 is a cross-sectional explanatory diagram of the line VII-VII shown in FIG. 6. FIG.
FIG. 8 is a cross-sectional explanatory diagram of the VIII-VIII line shown in FIG. 6.
FIG. 9 is a cross-sectional explanatory diagram of the IX-IX line shown in FIG. 6. FIG.
10 is a cross-sectional explanatory diagram of the line XX illustrated in FIG. 6.

Next, the specific example of embodiment of this invention is described in detail with reference to drawings. This invention is not limited to these specific examples at all.

1 to 5, the damping wall 1 of the present example formed between a pair of pillars of a building includes a pair of narrow widths with the lower support means 2 and the upper support means 3 in the building wall. A pair of wide sidewalls wider than the side wall plates 4 and 5, the pair of narrow side wall plates 4 and 5, and fixed (welded) to the pair of narrow side wall plates 4 and 5 by welding. The bottom wall plate 8 having a plate 6 and 7 and a pair of narrow side wall plates 4 and 5 and a bottom wall plate 8 fixed by welding to the pair of wide side wall plates 6 and 7. ) And an image fixed through the lower fixing means 11 to the lower supporting means 2 at the lower portions 9 and 10 of the pair of narrow sidewall plates 4 and 5 located below the bottom wall plate 8. It is arranged in the box 12 with a gap 14 with respect to the box 12 having itself 12 and an opening 13 at the top, and an upper fixing means (3) in the upper support means 3. Via 15) A fixed resistance plate 16 and a viscous body 17 such as bitumen filled in the gap 14 in the box 12 are provided.

The lower support means 2 consists of the lower girder 21 on the floor side of the predetermined floor of a building, and lower girder which bridge | pairs a pair of pillars of a building, and is supported by a pair of pillars of the building. 21 is an H-shaped steel 25 having an upper flange plate 22, a lower flange plate 23, and a web plate 24 integrally, and an upper flange plate 22, a lower flange plate 23, and a web. A plurality of reinforcing rib plates 26 welded to the plate 24 are provided.

The upper support means 3 consists of the upper girder 31 on the ceiling side of the predetermined floor of a building, bridges a pair of pillars of a building, is supported by a pair of pillars of a building, and is perpendicular | vertical (up-down direction) The upper girder 31 disposed upwardly with respect to the lower girder 21 in (A) is an H-shaped steel 35 having an upper flange plate 32, a lower flange plate 33, and a web plate 34 integrally. ) And a plurality of reinforcing rib plates 36 welded to the upper flange plate 32, the lower flange plate 33, and the web plate 34.

The lower fixing means 11 falls from the lower surface 41 of the bottom wall plate 8 of the box 12 in the vertical direction A, and the lower surface 41 and the lower portions 9 and 10. The lower beam side gusset plate 43 welded and fixed to one side 42 of each of the?) And the lower parts 9 and 10 are disposed in correspondence with the lower parts 9 and 10 in the vertical direction A, respectively. The upper surface of the upper flange plate 22 and the pair of side plates 45 and 46 fixed to the upper surface 44 of the upper flange plate 22 and the upper surface of the upper flange plate 22 are disposed in the same vertical plane with respect to the gusset plate 43. 44 and the lower beam side gusset plate 48 welded and fixed to the side 47 of each of the pair of side plates 45 and 46 and the gusset plates 43 and 48 in contact with each of the gusset plates 43 and 48. ) Two pairs of splices arranged in the in-plane direction (horizontal direction) C while being sandwiched in the out-of-plane direction (B) Plates 49 and 50, 51 and 52 and two pairs of splice plates 49 and 50, 51 and 52 are respectively attached to nuts 53 in order to frictionally tighten and tighten together to gusset plates 43 and 48, respectively. Each of the plurality of bolts 54 and 55 is screwed together.

The box 12 intersects the pair of narrow sidewall plates 4 and 5 and the narrow sidewall plates 4 and 5 that are horizontal and are disposed to face each other in the in-plane direction C, and the narrow sidewall plates 4 And a pair of wide sidewall plates 6 and 7 and narrow sidewall plates 4 and 5 and wide sidewall plates 6 which are welded and fixed in the horizontal direction and are arranged opposite to each other in the out-of-plane direction B. And in addition to the bottom wall plate 8 welded to the bottom of 7), the narrow side wall plates 4 and 5 are entangled and welded to the upper ends of the narrow side wall plates 4 and 5 and the wide side wall plates 6 and 7. The narrow side wall plates 4 and 5 and the bottom wall plate 8 are formed by interlocking the opening forming members 61 and 62 and the narrow side wall plates 4 and 5, which are made of a fixed L-shaped steel and defining the opening 13. ), Three wide inner wall plates 63 are provided.

The resistance plate 16 is spaced in the box 12 with respect to the pair of narrow sidewall plates 4 and 5, the wide sidewall plates 6 and 7, the bottom wall plate 8, and the wide inner wall plate 63. Four resistance plate main bodies 71 which are arranged with 14 and three gap holding members 72 which hold | maintain the space | interval of the four resistance plate main bodies 71 in mutually out-plane direction B of each other. And a plurality of bolts 74 each screwed to each of the nuts 73 in order to tighten the resistance plate main body 71 and the gap retaining member 72 together, and the four resistance plate main bodies 71 are provided. In the out-of-plane direction B in the middle, the two resistance plate main bodies 71 of the center side and the two resistance plate main bodies 71 in the three gap holding members 72 are fitted in the out-of-plane direction B, and the two One gap holding member 72 holding the gap in the out-of-plane direction B of the long resistance plate main body 71 is the other two remaining resistance plate main bodies 71 and the two gap holding members 72. of It has the upper surface 76 located upwards in the perpendicular direction A with respect to the upper surface 75, respectively.

The upper fixing means 15 has a pair of side plates 82 and 83 fixed to the lower surface 81 of the lower flange plate 33, and a side surface of each of the lower surface 81 and the pair of side plates 82 and 83. The two resistance plate main bodies which are welded and fixed to the 84, and which have a lower end surface 85 opposed to the upper end 76 with a gap in the vertical direction A, and which also have the upper end 76. Resistance plate body 71 having a gusset plate 86 on the upper beam side and a gusset plate 86 and an upper surface 76 arranged in the same vertical plane as 71 and one gap holding member 72. Each of the two resistance plate bodies 71 having the gusset plate 86 and the top surface 76 in contact with each other is fitted in the in-plane direction B, and arranged side by side in the in-plane direction C. Two pairs of splice plates 87 and 88, 89 and 90, and two pairs of splice plates 87 and 88, 89 and 90, respectively, are gusseted plates 86 And a plurality of bolts 92 and 93 each screwed to each of the nuts 91 so as to be friction-bonded to each of the two resistance plate bodies 71 having the upper surface 76 and tightened together.

The vibration damping wall 1 described above is a point accommodated in the box 12 at a relative horizontal displacement in the in-plane direction C between the box 12 and the resistance plate 16 during vibration such as an earthquake, wind or traffic vibration. The viscous shear deformation is generated in the adult body 17, and the damping force by the viscous shear deformation causes attenuation of vibrations such as earthquakes, wind and traffic vibrations.

And in the damping wall 1, the gusset plate 43 is more than the bottom wall plate 8 in the lower surface 41 in the upper end surface of the perpendicular direction A, and in the side end surface in the in-plane direction C. The two pairs of splice plates 49 and 50, 51 and 52 are welded to the sides 42 of the lower portions 9 and 10 of the pair of narrow sidewall plates extending downward, respectively. 55 is fastened together to the gusset plates 43 and 48 together, so that in the narrow side wall plates 4 and 5, which are portions of the side ends of the box 12 due to the large bending moment in the resistance plate 16, The box 12 is firmly fixed to the lower girder 21 with sufficient internal force against the generated tensile force. In addition, in the manufacture, the upper surface and the lower surface of the gusset plate 43 in the vertical direction A are lowered. Non-destructive inspection such as ultrasonic flaw test after welding fixation of (41) can be omitted, and the number of assembly steps can be reduced. All. In addition, this invention does not deny that nondestructive inspection, such as an ultrasonic flaw test, is performed with respect to the said welding fixation part etc. in order to confirm the certainty and reliability of welding in such a welding fixation part.

In the damping wall 1 shown in FIGS. 1 to 5, the lower fixing means 11 includes a gusset plate 43 and 48, a pair of side plates 45 and 46, and a pair of splice plates ( 49 and 50, 51 and 52, and bolts 54 and 55, but the lower fixing means 11 is shown like FIG. 6 to FIG. In addition to the gusset plates 43 and 48 shown in 5, a pair of side plates 45 and 46, a pair of splice plates 49 and 50, and a bolt 54 screwed into the nut 53, The splice plate mechanism 101 which connects (9) to one side plate 45, and the splice plate mechanism 102 which connects the lower part 10 to the side plate 46 are further provided. It may be configured in the same manner as the vibration damping wall 1 shown in Figs.

In the damping wall 100 shown in FIGS. 6-10, the splice plate mechanism 101 has the lower part 9 and the side plate 45 in between the gusset plates 43 and 48 in the out-plane direction B between them. A pair of side splice plates 111 and 112 disposed in contact with each of the side surfaces 42 and 47, and the side surfaces 113 and 114 on the other side of the lower portion 9 and the side plate 45, respectively. ) And the same width as that of each of the lower part 9 and the side plate 45 in the out-of-plane direction B, and the pair of side splice plates 111 and 112 The side splice plate 115 and the pair of side splice plates 111 and 112 and the side splice plate 115 which are arranged to sandwich the lower part 9 and the side plate 45 together in cooperation are provided with the bottom ( 9) and a plurality of bolts 117 each screwed to each of the nuts 116 to tighten together to each of the side plates 45. In comparison, the splice plate mechanism 102 is provided on one side surface 42 and 47 of each of the lower portion 10 and the side plate 46 with the gusset plates 43 and 48 therebetween in the out-of-plane direction B. The pair of side splice plates 121 and 122 disposed in face-to-face contact with the other side surfaces 123 and 124 of the lower part 10 and the side plate 46, respectively; Each of the lower 10 and the side plate 46 in (B) has the same width, and in addition, the lower 10 and the side plate 46 in cooperation with a pair of side end splice plates 121 and 122, respectively. The side splice plate 125 and the pair of side splice plates 121 and 122 and the side splice plate 125, which are arranged by sandwiching the same, to the lower part 10 and the side plate 46, respectively. And a plurality of bolts 127 screwed to each of the nuts 126.

In the damping wall 100 shown in FIGS. 6 to 10, the gusset plate 43 is fixed to each of the lower surface 41 of the bottom wall plate 8 and the side surfaces 42 of the lower portions 9 and 10, respectively. The splice plates 49 and 50 are fastened together to the gusset plates 43 and 48 together by bolts 54, and the lower portion 9 is the in-plane direction of the lower support means 2 and the gusset plate 48 It is connected to the side plate 45 fixed to one side end of C) by the splice plate mechanism 101, and the lower part 10 is the in-plane direction (the lower support means 2 and the gusset plate 48). Since the splice plate mechanism 102 is connected to the side plate 46 fixed to the other side end of C), the box 12 can be firmly fixed to the lower girder 21 with a more sufficient bearing capacity. In addition, nondestructive inspection such as an ultrasonic flaw test can be omitted, and the number of assembling steps can be reduced.

In addition, the damping walls 1 and 100 have a plurality of reinforcing ribs welded and fixed to the wide sidewall plates 6 and 7 and the bottom wall plate 8 as shown in FIGS. 1 to 3 and 6 to 8. 131 may be provided, and as shown in FIGS. 6 to 8, a plurality of reinforcing ribs 132 welded and fixed to the bottom wall plate 8 and the gusset plate 43 may be provided.

1, 100 damping walls
2 lower support means
3 upper support means
4, 5 narrow sidewall plate
6, 7 wide sidewall plates
8 floorboard
9, 10 lower
11 Lower fixing means
12 boxes
13 opening
14 clearance
15 Upper fixing means
16 resistance plates
17 viscous bodies
42, 47, 113, 114, 123, 124 side
101, 102 splice plate mechanism
111, 112, 121, 122 side splice plate
115, 125 side splice plate
116, 126 nuts
117, 127 volts

Claims (3)

The bottom wall plate and the bottom wall plate, as well as a lower support means and an upper support means in the building wall, a pair of narrow sidewall plates, a pair of wide sidewall plates and a bottom wall plate wider than a pair of narrow sidewall plates. A box fixed to the lower support means via a lower fixing means at a lower portion of the pair of narrower side wall plates located below, and disposed in the box with a gap with respect to the box and to the upper support means. A resistance plate fixed through an upper fixing means and a viscous body filled in the gap, and the lower fixing means is fixed to the lower surface of the bottom wall plate of the box and the side surface of the lower portion of the pair of narrow side wall plates. A first gusset plate, a second gusset plate disposed in the same vertical surface with respect to the first gusset plate and fixed to the lower support means, and the first and second gusset plates And at least one pair of splice plates placed face to face on each, one damping wall having a fitting bolt with the splice plate of the at least one pair of a first and a second gusset plate, respectively. The bottom wall plate and the bottom wall plate, as well as a lower support means and an upper support means in the building wall, a pair of narrow sidewall plates, a pair of wide sidewall plates and a bottom wall plate wider than a pair of narrow sidewall plates. A box fixed to the lower support means via a lower fixing means at a lower portion of the pair of narrower side wall plates located below, and disposed in the box with a gap therebetween, A resistance plate fixed through an upper fixing means and a viscous body filled in the gap are provided, and the lower fixing means is provided on one side of the bottom of the bottom wall plate of the box and the lower side of the pair of narrow sidewall plates. A first gusset plate secured, a second gusset plate disposed in the same vertical surface with respect to the first gusset plate and secured to the lower support means, and first and second gusset plates At least one pair of splice plates disposed facing each other, a bolt for fastening the at least one pair of splice plates together to each of the first and second gusset plates, one of the lower support means and the second gusset plate. One side plate fixed to the side end, the other side plate fixed to the other side end of the lower supporting means and the second gusset plate, and the lower part of one narrow side wall plate of the pair of narrow side wall plates to one side plate A vibration damping wall comprising a first splice plate mechanism for connecting and a second splice plate mechanism for connecting a lower portion of the other narrow side wall plate of the pair of narrow side wall plates to the other side plate. The method according to claim 2,
The first splice plate mechanism includes a pair of first side end splice plates disposed to face one side of each of the lower side and one side plate of one narrow side wall plate with the first and second gusset plates interposed therebetween. A second side splice plate disposed to face the lower side of one narrow side wall plate and the other side of each side plate, and a pair of first side splice plates and a second side splice plate The lower part of the narrow side wall plate and the other bolt which are fastened together to one side plate, The 2nd splice plate mechanism has the lower part and the other side of the other narrow side wall plate with the 1st and 2nd gusset plate in between. A pair of third side end splice plates disposed to face one side of each side plate, and a lower portion of the other narrow side wall plate and a different side plate of the other side plate. A fourth side splice plate disposed facing the side of the other bolt, and a pair of third side splice plates and a fourth side splice plate which are tightened together to the lower side of the narrow narrow side wall plate and the other side plate together. Damping wall with a.

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