JP3846837B2 - Housing vibration isolation method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a house vibration isolation method using an outer wall panel attached to a housing structure of a house.
[0002]
[Prior art]
In conventional middle- and low-rise housing, safety against loads such as earthquakes and typhoons is taken into consideration, but no design is made to ensure comfortability against slight vibrations such as traffic vibrations. For example, as in the technique of Japanese Patent Laid-Open No. 8-135250, a vibration brace made of low yield point steel is incorporated in a house, and the damage to the house is minimized by causing the vibration brace to absorb seismic energy. There is something. However, this technique does not include countermeasures against micro vibrations.
[0003]
[Problems to be solved by the invention]
As described above, the conventional house design does not deal with micro vibrations such as traffic vibrations. This is because it has not been taken into consideration because, depending on the magnitude of the applied load, such as earthquakes and typhoons, the structure of the house is fatally hit and does not affect the lives of residents. However, traffic vibrations caused by transportation operations and the like cause discomfort to the residents every hour of the day. Vibration is particularly conscious when the resident is resting, or is awakened because of vibration during sleep, and traffic vibration impairs the comfort of the residence. These harmful effects are particularly remarkable when a house is located near a vibration source such as an expressway.
[0004]
The following two methods are conceivable as a method for preventing the housing habitability from being deteriorated due to this traffic vibration. One is to improve the damping rate for the vibration of the entire house so that the vibration propagating from the ground into the house is not amplified. The second is to increase the rigidity of the entire house and minimize the effects of vibration. This is because, when the rigidity is low, a rotational motion is generated between the constituent members of the house due to vibration propagating from the ground, and a large shake is generated. This large shaking is slow, and it is easier to feel physiologically compared to fast vibration.
[0005]
In terms of structural design, the rigidity of the entire house is determined by the frame structure. However, the influence of the outer wall structure and the inner wall structure on the housing rigidity cannot be ignored with respect to fine vibration such as traffic vibration. This is because when the amplitude of the external vibration is small, the vibration suppression effect due to the rigidity of the house is more significant than when the amplitude of the external vibration is large. In other words, strengthening housing rigidity is an effective measure for suppressing micro vibrations. Therefore, in the present invention, it is an object to be solved to minimize the influence of slight vibration such as traffic vibration of the entire house by strengthening the rigidity of the outer wall structure mainly according to the second method described above.
[0006]
[Means for Solving the Problems]
The problem to be solved by the present invention is as described above. Next, means for solving the problem will be described.
[0007]
In Claim 1, it is the house vibration isolating method which improves the traffic vibration-proof performance of the whole house, Comprising: It adds to the steel frame member (12b) which is a horizontal rail of an outer wall panel (10), or an outer wall panel (10). Connecting the steel frame member (12d), which is a horizontal rail, and the beam (5) to which the outer wall panel (10) is connected, using a horizontal vibration isolating bracket (20) by bolt fastening, The horizontal vibration isolating bracket (20) is composed of a flat plate member (20a) bent in a square shape when viewed from the side, and a reinforcing member (20b) suspended from the flat plate member (20a). A long hole (20c, 20d) for bolt fastening is formed in (20a) .
[0008]
According to a second aspect of the present invention, in the house vibration isolating method according to the first aspect, a shock-absorbing material is disposed between the horizontal vibration isolating bracket (20) and the steel frame member which is a horizontal rail .
[0009]
In Claim 3, it is the house vibration isolating method which improves the traffic vibration-proof performance of the whole house, Comprising: The outer wall body (11) which is one member which comprises an outer wall panel (10), and this outer wall panel (10) A horizontal vibration isolating bracket (30) is attached and connected to both of the connected beams (5), and the horizontal vibration isolating bracket (30) is bent in a square shape when viewed from the side. It is composed of a flat plate member, a long hole for bolt fastening is drilled in the flat plate member on the connection surface with the beam, and an adhesive sheet (31) is sandwiched between the connection surface with the outer wall body (11). is there.
[0010]
According to claim 4, in the house vibration isolation method according to claim 1 or claim 3, at least one set of the outer wall panels (10) adjacent to each other on the side is a vertical length constituting the outer wall panel (10). At least one place between the steel member (12a, 12a) extending in the vertical direction, which is a crosspiece, sandwiches a spring spacer (16) that is an elastic body, and a plastic bolt via the spring spacer (16) It is fastened and connected by (15) .
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0012]
1 is a bird's-eye view showing the structure of a three-story house, FIG. 2 is a front view showing a horizontal vibration isolating structure, FIG. 3 is a side view, and FIG. 4 is a front view showing the main part of the horizontal vibration isolating structure. 5 is a plan view showing the horizontal vibration isolating bracket, FIG. 6 is a side view showing the main part of the horizontal vibration isolating structure, and FIG. 7 shows the main part of the horizontal vibration isolating structure in which a wooden board is added to the connection point. It is a side view.
[0013]
FIG. 8 is a side view showing the main part of the horizontal vibration isolating structure in which a sheet can be added to the connection point, FIG. 9 is a front and plan view showing the horizontal vibration isolating bracket of the second embodiment, and FIG. 10 is the second embodiment. FIG. 11 is a side view showing the main part of the horizontal vibration isolating structure in the second embodiment, and FIG. 12 is a conceptual diagram showing the concept of the outer wall panel locking structure and the main anti-vibration structure. is there.
[0014]
First, the housing structure of a house will be described.
As shown in FIG. 1, a housing 1 of a three-story house is composed of columns 3 and beams 4, 5, 6, and the housing is erected on a foundation 2. The frame 1 is composed of a beam-winning ramen structure. Beams 4, 5, and 6 are through beams, and column 3 is a column that is divided at each floor. In this beam-winning ramen-structured house, the location of the pillar 3 can be determined within the range that maintains the strength and rigidity of the frame structure, and unlike the pillar-winning house, a highly flexible internal structure can be realized. .
[0015]
Pillars 3, 3... Are erected on the foundation 2, and beams 4 are fixed on the pillars 3, 3. Similarly, the pillars 3, 3... Are also erected on the beam 4, and the beam 5 is fixed at the upper end thereof. Similarly, the beam 6 constitutes the third floor hut surface. In addition, horizontal braces are arranged on the beam surfaces formed by the beams 4, 5, and 6, respectively, to increase the rigidity between the beams and to form a frame having strength and flexibility. A bundle can be constructed on the beam 6 by arranging a bundle, a diagonal member, a truss frame or the like.
[0016]
The outer wall panel which comprises the outer wall of a house is demonstrated.
As shown in FIGS. 2, 3, and 6, the outer wall panel 10 includes an outer wall body 11 and an outer wall back frame 12. The outer wall body 11 is a ceramic panel and is fixed to the outer wall back frame 12. As shown in FIG. 3, the outer wall panel 10 is disposed on the outer surface of the house between the foundation 2 and the beam 4 and between the upper and lower floor beams, and the outer wall panel 10 covers the beam from the outside.
[0017]
The outer wall panel 10 is connected to the beam or the foundation 2 through outer wall fixtures 13, 13... At the upper and lower ends. The outer wall fixture 13 is configured in a U shape for bolt fastening in a front view, and in a T shape in a side view. The T-shaped vertical axis of the outer wall fixture 13 is fastened to the outer wall back frame 12 by bolts, one of the T-shaped horizontal axes is fastened by bolts to the upper surface of the beam or foundation 2, and the other is fixed to another outer wall panel 10. The outer wall back frame 12 is fastened with bolts.
[0018]
The outer wall back frame 12 has a steel frame member 12a extending in the vertical direction as a vertical rail and upper and lower steel frame members 12b and 12c extending in the horizontal direction as horizontal rails, each corresponding to four sides of a rectangle. The steel frame members 12d and 12e, which are also horizontal rails and extend in the left-right direction, are bridged between the steel frame members 12a and 12a.
[0019]
As shown in FIG. 1, the outer wall panels 10, 10... Are arranged so as to fill the outer surface of the housing 1. FIG. 12A shows a case where the outer wall panels 10, 10... Are only fixed between the beams as described above, and no connection structure is provided between the outer wall panels 10, 10. . Next, FIG. 12B shows a state in which a plurality of outer wall panels 10 (four in the figure) are connected by a side binding plastic bolt 15 to be described later to constitute one outer wall unit 14. . Further, FIG. 12 (c) shows a state in which the outer wall unit 14 is connected to the beam by a horizontal vibration isolator 20 which will be described later, and the mounting structure of the outer wall panels 10, 10. -ing A bold arrow in FIG. 12 represents vibration as an external force, and a thin arrow represents a resistance force due to an arrangement member in the house.
[0020]
The connection between the outer wall panels 10 and 10 as shown in FIG. 12B is performed as follows. As shown in FIG. 2, the plastic bolt 15 is fastened to the upper and lower three places between the outer wall back frames 12 and 12 via the spring spacer 16 which is an elastic member.
[0021]
Further, as shown in FIG. 12C, the horizontal vibration isolating bracket 20 connects the outer wall panel 10 and the beam to suppress the vertical movement and horizontal movement of the outer wall back frame. With the above configuration, the outer wall panels 10, 10... Are connected to each other, and further, the number of connection points with the beams is increased, which helps to improve the rigidity of the housing structure.
[0022]
Hereafter, a horizontal motion vibration isolator will be described.
As shown in FIGS. 4, 5, and 6, the horizontal vibration isolating bracket 20 is provided on a flat plate member 20 a that is bent in a square shape when viewed from the side, and is suspended from the flat plate member 20 a in a front view and a plan view. The reinforcing member 20b having a triangular shape in side view is fixedly configured. The flat plate member 20a is provided with at least one long hole for fastening bolts. In this embodiment, four holes are provided, and two long holes 20c and 20c are formed in the vertical direction in front view. Two holes 20d and 20d are formed in the vertical direction in plan view. The horizontal vibration isolating bracket 20 has a metal bolt 22 inserted through a long hole 20d on the lower surface of the beam and fastened by a nut 23 to fix the horizontal vibration isolating bracket 20 to the beam. Similarly, the steel member 12d is formed by inserting plastic bolts 24 through the long holes 20c and the washers 21 and fastening them with nuts 25, and fixing the horizontal vibration isolator 20 to the steel member 12d. Although the steel member 12d used in advance is fixed to the outer wall panel 10, in order to improve the mounting rigidity of the outer wall panel 10, a steel member or the like extending in the left-right direction is retrofitted to the rear surface of the existing outer wall panel. It is also possible. Then, the retrofitted steel frame member and the horizontal vibration isolating metal fitting 20 can be connected to improve the mounting rigidity of the outer wall and improve the traffic vibration resistance performance of the house.
[0023]
The horizontal vibration isolating bracket 20 is disposed on most of the outer wall panels 10 (about 80 to 90% in this embodiment).
[0024]
Further, a shock absorbing material can be provided between the horizontal vibration isolating bracket 20 and the steel frame member 12d so as to have a vibration damping effect. In the present embodiment, when a wooden board 26 is used as a buffer material as shown in FIG. 7, a synthetic resin sheet 27 may be used as a buffer material as shown in FIG. As the synthetic resin used for the sheet 27, a synthetic resin having a damping performance such as rubber such as silicon rubber, vinyl chloride, polyethylene, urethane resin can be used.
[0025]
Next, the horizontal vibration isolator of the second embodiment will be described.
As shown in FIGS. 9A and 9B, the horizontal vibration isolator 30 of the second embodiment has flat holes 30a and 30a formed on a flat plate bent in a square shape when viewed from the side. It is configured to be drilled in the vertical direction. As in the case of the horizontal vibration isolator 20, the horizontal vibration isolator 30 is connected to the lower surface of the beam by inserting a metal bolt 22 through the elongated hole 30 a and fastening it with a nut 23. 30 is fixed.
[0026]
As shown in FIG. 10, the horizontal motion vibration isolator 30 is directly connected to the outer wall body 11 of the outer wall panel 10. The connection between the horizontal vibration isolator 30 and the outer wall body 11 is made through an adhesive sheet 31 having an adhesive action. Further, when the horizontal vibration isolator 30 is used, the steel frame member 12d is not disposed on the outer wall back frame 12.
[0027]
In the horizontal vibration isolating metal fittings 20 and 30, the holes through which the bolts are inserted are both long holes, and the bolts are slidable along the long holes. This is a countermeasure when an external force is applied to a housing component such as a beam or a column due to a large earthquake or the like to force deformation that exceeds the elastic deformation threshold. Since the external force concentrates on the part where the resistance force against the external force of the component of the house is weak, the connection with the frame structure such as the outer wall panel 10 is so strong that it resists vibration such as a large earthquake, and the influence of the external force is the first. This is to prevent it from reaching the structure. That is, when a large earthquake or the like occurs, first, the rigidity of the members that do not constitute the frame structure such as the outer wall panel 10 is lost. When an external force exceeding a certain level is applied, the fixation with other members is released. -ing Further, the reason why the plastic bolts 15 and 24 are used for the connection between the outer wall panels 10 and 10 and the connection between the horizontal vibration isolating metal fittings 20 and 30 and the outer wall panel 10 is the same, and more than a certain level. This is a measure for cutting the case structure so as not to place a burden on the frame structure.
[0028]
【The invention's effect】
The house vibration isolating method for improving the anti-vibration performance of the entire house as claimed in claim 1, wherein the method is a steel frame member (12b) which is a lateral rail of the outer wall panel (10) or added to the outer wall panel (10). The steel frame member (12d), which is a horizontal rail, and the beam (5) to which the outer wall panel (10) is connected are connected by bolt fastening using a horizontal vibration isolator (20). The horizontal vibration isolator (20) is composed of a flat plate member (20a) bent in a square shape when viewed from the side, and a reinforcing member (20b) suspended from the flat plate member (20a). Since the long holes (20c, 20d) for fastening bolts are drilled in the member (20a) , the outer wall panel is fixed even on the lower surface of the beam, the number of fixing points with the beam increases, and the outer wall panel becomes stronger to the housing frame. The rigidity of the entire house can be improved. For this reason, the resistance force against slight vibration such as traffic vibration of the entire house increases.
[0029]
The horizontal vibration isolating bracket is composed of a flat plate member bent in a square shape when viewed from the side, and a reinforcing member suspended from the flat plate member in a front view and a plan view. Since the long hole is drilled, the outer wall panel is firmly fixed to the housing and the resistance against micro vibrations such as traffic vibrations is increased. In addition, the bolt is inserted into the long hole and fixed, and when external force exceeding a certain level is applied, the outer wall panel and the beam are not firmly fixed. There is no.
[0030]
According to the second aspect of the present invention, since the shock absorbing material is disposed between the horizontal vibration isolating bracket (20) and the steel frame member as the horizontal rail, the fixing of the outer wall panel is enhanced by the arrangement of the horizontal vibration isolating bracket. This not only leads to the strengthening of the rigidity of the entire house, but also exhibits a vibration damping effect, and can further reduce the influence of slight vibrations such as traffic vibrations.
[0031]
The housing vibration isolating method for improving the traffic vibration resistance performance of the entire house according to claim 3 , wherein the outer wall body (11) is a member constituting the outer wall panel (10), and the outer wall panel (10). A horizontal vibration isolating bracket (30) is attached and connected to both the beams (5) connecting the two, and the horizontal vibration isolating bracket (30) is bent into a square shape when viewed from the side. A long hole for fastening a bolt is formed in the flat plate member on the connection surface with the beam, and the adhesive sheet (31) is sandwiched between the connection surface with the outer wall body (11). The outer wall body and the beam of the outer wall panel can be directly connected, and the outer wall panel can be integrated with the frame structure more than the connection through the frame of the outer wall panel, leading to the strengthening of the rigidity of the house.
[0032]
Further, the horizontal vibration isolating bracket is configured by fixing a flat plate member bent in a square shape in a side view and a reinforcing member suspended from the flat plate member in a front view and a plan view. At least one long hole for fastening bolts is drilled in the connection surface with the beam, and an adhesive is sandwiched between the connection surface with the outer wall body. This not only leads to the strengthening of the rigidity of the entire house, but also exhibits a vibration damping effect, and the influence of slight vibrations such as traffic vibrations can be further reduced.
[0033]
As described in claim 4, at least one set of the outer wall panels (10) adjacent to each other on the side is a steel frame member (12a) extending in the vertical direction, which is a vertical rail constituting the outer wall panel (10). Between 12a) and 12a), the spring spacer (16), which is an elastic body, is sandwiched between at least one place, and is fastened and connected by the plastic bolt (15) via the spring spacer (16). As a result, the resistance to vibration is further improved. Further, since the bolt fastening is performed with the spring spacer (16) which is an elastic body interposed therebetween, a vibration damping effect is also exhibited, and the influence of fine vibration such as traffic vibration can be further reduced.
Further, since the spring spacer (16), which is a horizontal vibration isolator, is fastened by a plastic bolt, it is cut when a certain external force is applied, such as during a large earthquake, and does not become a burden on the frame structure.
[Brief description of the drawings]
FIG. 1 is an overhead view showing a structure of a three-story house.
FIG. 2 is a front view showing a horizontal motion isolation structure.
FIG. 3 is a side view of the same.
FIG. 4 is a front view showing the main part of a horizontal vibration isolation structure.
FIG. 5 is a plan view showing a horizontal vibration isolator.
FIG. 6 is a side view showing the main part of the horizontal motion isolation structure.
FIG. 7 is a side view showing a main part of a horizontal vibration isolating structure in which a wooden board can be added to a connection point.
FIG. 8 is a side view showing a main part of a horizontal vibration isolating structure in which a sheet can be added to a connection point.
FIGS. 9A and 9B are a front view and a plan view showing a horizontal vibration isolating bracket according to a second embodiment. FIGS.
FIG. 10 is a front view showing a horizontal motion isolation structure in a second embodiment.
FIG. 11 is a side view showing a main part of a horizontal motion isolation structure in a second embodiment.
FIG. 12 is a conceptual diagram showing the concept of the outer wall panel locking structure and the present vibration isolation.
[Explanation of symbols]
4,5,6 beam 10 outer wall panel 11 outer wall body 12 outer wall back frame 12d steel member 14 outer wall unit 15/24 plastic bolt 16 spring spacer 20/30 horizontal vibration isolator 20a / 40a flat plate member 20b / 40b reinforcing member 20c / 20d long hole 22 metal bolt 26 wood board 27 sheet 30a long hole 31 adhesive sheet

Claims (4)

A house vibration isolation method for improving traffic vibration resistance performance of the entire house, which is a steel frame member (12b) that is a horizontal beam of the outer wall panel (10) or a steel frame that is a horizontal beam added to the outer wall panel (10). Both the member (12d) and the beam (5) to which the outer wall panel (10) is connected are connected by bolt fastening using a horizontal vibration isolator (20). (20) is composed of a flat plate member (20a) bent in a square shape when viewed from the side and a reinforcing member (20b) suspended from the flat plate member (20a), and bolted to the flat plate member (20a). A house vibration isolating method characterized in that long holes (20c, 20d) are provided . 2. The house vibration isolation method according to claim 1, wherein a cushioning material is disposed between the horizontal vibration isolation metal fitting (20) and a steel frame member as a horizontal rail . A housing vibration isolation method for improving traffic vibration resistance performance of an entire house, which is an outer wall body (11) which is a member constituting the outer wall panel (10) and a beam ( 5), a horizontal vibration isolating bracket (30) is provided and connected between the two, and the horizontal vibration isolating bracket (30) is constituted by a flat plate member bent in a square shape when viewed from the side. In addition, a long hole for fastening a bolt is formed in the flat plate member in a connection surface with the beam, and an adhesive sheet (31) is sandwiched between the connection surface with the outer wall body (11), Method. In the house vibration isolating method according to claim 1 or 3, at least one set of the outer wall panels (10) adjacent to each other on the side is a vertical rail constituting the outer wall panel (10) in the vertical direction. Between the extended steel members (12a, 12a), the spring spacer (16), which is an elastic body, is sandwiched at least at one location, and is fastened by the plastic bolt (15) via the spring spacer (16). A method for vibration isolation of a house, characterized in that it is connected .

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