JP4657067B2 - Damping wall panel - Google Patents

Description

  The present invention relates to a damping wall panel to which a damping device is attached.

Conventionally, the thing of patent document 1 is known as an example of the damping device of a building. In the vibration damping device described in Patent Document 1, a damper (vibration damping member) is interposed in the middle of a brace installed via a mounting gusset or the like in an internal space of a frame surrounded by columns and beams. This damper absorbs vibration energy in the event of an earthquake or the like, and is called a brace-type vibration damping device.
JP 2003-49557 A

However, in the above vibration damping device, when the deformation of the building due to an earthquake or the like is small, the deformation transmitted to the vibration damping member (energy absorbing material) is also small, so the energy absorption amount of the vibration damping member is small and the vibration of the building is reduced. The damping force that attenuates also becomes smaller, and the damping structure does not work very effectively. Therefore, it has been necessary to increase the number of locations of the damping members.
Further, the vibration damping device described above must be installed in an internal space of a frame, for example, a wall, surrounded by columns and beams at the site, which takes time and labor for the construction at the site.

  The present invention has been made in view of the above circumstances, and provides a damping wall panel to which a damping device capable of absorbing a large amount of energy and exhibiting a large damping force is attached even when the deformation of a building due to an earthquake or the like is small. The issue is to provide.

In order to solve the above-mentioned problem, the invention according to claim 1 is configured such that, for example, as shown in FIGS. A damping wall panel to which the damping device 1 is attached,
The vibration damping device 1 is mounted in the opening 34 and has a rectangular frame-shaped frame 2 that is deformed into a parallelogram shape by vibration and a pair of vertical frames 6 , 6 of the frame 2. When the support portions 3 and 3 are supported by the pair of support portions 3 and 3 and the pair of support portions 3 and 3 are displaced by vibration, the center portion between the pair of support portions 3 and 3 is centered. And a vibration damping member (for example, vibration damping rubber 16) provided between the end of the pendulum member 4 and the frame 2. .

Here , as a wall panel , the wall panel for construction in a panel construction method or a two-by-four construction method is mentioned, for example. Note that the panel construction method is a construction method in which a building is constructed by building components such as walls, floors, and roofs in advance at a factory and assembling these panels at a construction site.
Moreover, as the damping member, a damping member composed of a spring and a damper, rubber, an oil damper, a viscoelastic material, or the like is preferably used, and further, a member that attenuates vibration by friction may be used.
Further, the damping wall panel 35 to which the damping device 1 as described above is attached may be incorporated as a wall of a newly built building, or may be incorporated when reforming an existing building wall.

According to the first aspect of the present invention, in order to effectively use the vibration damping function from a small deformation of the building, the deformation of the building is amplified and transmitted to the vibration damping member using the lever mechanism.
That is, when the building is deformed by an earthquake such as an earthquake, the pair of support portions 3 and 3 of the damping wall panel 35 constituting the building are displaced via the frame 2. When the pair of support portions 3 and 3 are displaced, the pendulum member 4 swings like a pendulum about the substantially central portion between the pair of support portions 3 and 3, and the end of the pendulum member 4 is amplified in swing. As a result, the displacement of the pair of support portions 3 and 3 is amplified. Therefore, since the deformation of the vibration damping member (damping rubber 16) provided between the end of the pendulum member 4 and the frame 2 can be amplified, the vibration damping function can be used effectively from a small deformation of the building. .
Further, since the deformation speed of the vibration damping member 16 can be amplified more than the deformation speed of the building, it is more efficient when using a vibration damping member (for example, a viscoelastic material) whose energy absorption performance is proportional to the deformation speed. Can absorb energy and exert a great damping force.
In addition, since the damping wall panel 35 to which the damping device 1 is attached can be manufactured in advance in a factory or the like, the damping structure can be added to the building by installing the damping wall panel 35 at the site. It can be easily introduced and construction on site is simple.
Furthermore, since the damping wall panel 35 can be installed at a desired position in the building, the damping wall panel 35 can be installed at a place where it is most shaken in the event of an earthquake, so that the damping structure can be easily and reliably effective. Can be introduced into the building.

The invention according to claim 2 is the damping wall panel according to claim 1,
Fixing surfaces 6 c and 7 c are formed on the outer peripheral portion of the frame 2 so as to be in contact with and fixed to the inner peripheral surface of the opening 34 formed in the wall panel 30.

  According to the second aspect of the present invention, since the fixed surfaces 6 c and 7 c are formed on the outer peripheral surface of the frame 2, the fixed surfaces 6 c and 7 c are used as inner peripheral surfaces of the openings 34 formed in the wall panel 30. The frame 2 can be easily and reliably attached to the wall panel 30 by contacting and fixing to the wall panel 30, that is, the vibration damping device 1 can be easily attached to the wall panel 30.

The invention according to claim 3 is the damping wall panel according to claim 1 or 2,
The damping member is composed of a pair of damping rubbers 16 and 16 attached in a box-like box 15 attached to the frame 2 so as to face the end of the pendulum member 4;
A plate 17 is inserted between the damping rubbers 16 and 16 and fixed to the pair of damping rubbers 16 and 16, and the plate 17 and the end of the pendulum member 4 are connected to each other. It is characterized by.

It is desirable to prepare two damping boxes 5 and attach each to the frame 2 facing both ends of the pendulum member 4. However, the damping box 5 is a frame facing one end of the pendulum member 4. One may be attached to only two.
Further, the damping rubber 16 is preferably a plate-like one, and the plate 17 is fixed to the opposed surfaces of the pair of damping rubbers 16, 16, and the surface facing the outside of each damping rubber 16, 16 is the box 15. It is desirable to fix each to the opposing inner surface.

  According to invention of Claim 3, when a deformation | transformation arises in a building by earthquakes, such as an earthquake, a pair of support parts 3 and 3 will displace via the flame | frame 2 attached to this building. When the pair of support portions 3 and 3 are displaced, the pendulum member 4 swings like a pendulum about the substantially central portion between the pair of support portions 3 and 3, and the end of the pendulum member 4 is amplified in swing. As a result, the displacement of the pair of support portions 3 and 3 is amplified. The end of the pendulum member 4 and the plate 17 of the damping box 15 are connected to each other. The plate 17 is inserted between the damping rubbers 16 and 16 and fixed to the pair of damping rubbers 16 and 16. Therefore, the deformation of the damping rubbers 16, 16 can be amplified. Therefore, the vibration control function can be used effectively from a small deformation of the building.

Further, since the damping box 5 is attached to the frame 2 so as to face the pendulum member 4, the pendulum member 4 and the plate 17 fixed to the damping rubbers 16, 16 can be easily connected.
Further, since the vibration damping box 5 is manufactured separately and the vibration damping box 5 can be attached to the frame 2, the vibration damping device 1 can be easily assembled. Furthermore, by attaching the frame 2 to the wall panel 30, the vibration damping device 1 can be easily attached.

The invention according to claim 4 is the damping wall panel according to claim 3,
One end of the plate 17 projects from the box 15, and the projecting one end is connected to the end of the pendulum member 4.

  According to the invention described in claim 4, since one end portion of the plate 17 protruding from the box 15 is connected to the end portion of the pendulum member 4, the end portion of the pendulum member 4 is connected to the damping rubber in the box 15. The function of the damping rubber 16 can be applied to the pendulum member 4 without being directly fixed to the pendulum 16. Fixing the end of the pendulum member 4 directly to the damping rubber 16 in the box 15 is a laborious operation, but the end of the pendulum member 4 is connected to one end of the plate 17 protruding from the box 15. This is an easy task.

The invention according to claim 5 is the damping wall panel according to claim 3 or 4,
The frame 2 is provided with an installation portion 9 for installing the box 15 and a fixing plate that abuts and is fixed to wall portions (for example, end plates 15b and 15b) at both ends of the box 15 installed in the installation portion 9. 8a and 8a are provided.

  In addition, what is necessary is just to carry out by bolting etc., when fixing board 8a, 8a is fixed to the wall part (end plate 15b, 15b) of the both ends of the box 15, for example.

  According to the fifth aspect of the present invention, the vibration damping box 5 can be stably installed in the installation portion 9, and the fixing plates 8 a and 8 a are attached to the wall portions at both ends of the vibration damping box 5 installed. Can be attached to the frame 2 easily and reliably.

As for invention of Claim 6, as shown, for example in FIG. 8, in the damping wall panel as described in any one of Claims 1-5,
The wall panel 30 includes a pair of left and right column members 33, 33, a small wall panel 31 provided between the upper end portions of the column members 33, 33 and fixed to the upper end portion, and the column members 33, 33. A waist wall panel 32 provided between the lower ends of the lower wall and fixed to the lower ends,
The vertical frames 6 and 6 of the frame 2 are attached to the column members 33 and 33, and the support portions 3 and 3 are attached to the vertical frames 6 and 6.

According to the invention described in claim 6, when the upper structure such as the upper floor 44 is supported from below by the damping wall panel 35, the downward force acting from the upper structure is applied to the pair of left and right columns. Through the members 33, 33, the damping wall panel 35 can be transmitted from below to a lower structure such as the floor 41 and the foundation 40.
Accordingly, the downward force applied from the upper structure 44 hardly acts on the vibration damping device 1, and therefore, the support unit 3 and the pendulum constituting the vibration damping device 1 in a normal time when no earthquake or the like occurs. An excessive force does not act on the member 4, and the vibration damping device 1 can be reliably operated in the event of an earthquake or the like.

The invention according to claim 7 is the damping wall panel according to any one of claims 1 to 6, for example, as shown in FIG.
The wall panel 30 is provided with a heat insulating material 50 in a state in which the swing of the pendulum member 4 is not restricted.

  The heat insulating material may be filled in the wall panel 30 or attached to the outer surface of the wall panel 30. When filling the interior of the wall panel 30, it is desirable that the outer shape of the wall panel 30 is not fixed and can be filled by being compressed while being compressed into the space in the wall panel 30. When attaching, it is desirable that the outer shape is fixed and lightweight, such as a resin foam material such as styrofoam.

  According to the seventh aspect of the present invention, since the heat insulating material 50 is provided on the wall panel 30, a heat insulating structure can be provided when the damping wall panel 35 is used for the outer wall portion. Moreover, since the heat insulating material 50 does not restrict the swing of the pendulum member 4, the vibration damping function is not impaired by providing the heat insulating material 50.

According to the present invention, the vibration damping device is attached to the opening of the wall panel. In this vibration damping device, when the building is deformed by a vibration such as an earthquake, the pair of support portions of the vibration damping wall panel is a frame. The pendulum member swings like a pendulum around the substantially central portion between the pair of support portions, and the end of the pendulum member amplifies the swing. The displacement is amplified. Therefore, since the deformation of the vibration damping member provided between the end of the pendulum member and the frame can be amplified, the vibration damping function can be effectively used from the small deformation of the building.
In addition, since the deformation speed of the vibration damping member can be amplified more than the deformation speed of the building, when using a vibration damping member whose energy absorption performance is proportional to the deformation speed, energy can be absorbed more efficiently and large damping can be achieved. I can demonstrate my power.
In addition, if the damping wall panel is manufactured in advance in a factory, etc., and installed on the site, the damping structure can be easily introduced into the building, and construction on site is easy. Become.
Furthermore, a damping wall panel can be installed at a place where it is most shaken in the event of an earthquake, so that the damping structure can be easily and reliably introduced into the building.

Embodiments of the present invention will be described below with reference to the drawings.
First, before describing the damping wall panel according to the present invention, a damping device attached to the damping wall panel will be described.
FIG. 1 is a front view showing an example of a vibration damping device 1. The vibration damping device 1 is attached to the frame 2, a pair of support portions 3 and 3 provided to face the frame 2, a pendulum member 4 supported by the support portions 3 and 3, and the frame 1. The vibration suppression box 5 is provided.

The frame 2 is formed by assembling a pair of left and right vertical frames 6 and 6 and a pair of upper and lower horizontal frames 7 and 7 into a rectangular frame shape.
The pair of vertical frames 6 and 6 are arranged in parallel with each other, and each includes a strip-like mounting plate 6a and a strip-like standing plate 6b erected at right angles to the mounting plate 6a. The cross section is formed in a T-shape.
The mounting plate 6a is attached to the inner peripheral surface of a rectangular opening formed in the wall panel, and the surface facing the outside is a fixed surface 6c that is in contact with and fixed to the inner peripheral surface of the opening. ing. The mounting plate 6a is formed with two rows of screw holes (not shown) at predetermined intervals in the vertical direction. The mounting plate 6a is attached to the inner peripheral surface by screwing the fixing surface 6c into contact with the inner peripheral surface of the opening and screwing the screw into the inner peripheral surface of the opening through the screw hole. It has become.
The standing plate 6b has a plurality of holes formed at predetermined intervals in the vertical direction. These holes are holes used when the support portion 3 is attached to the standing plate 6b with the bolt 6d.

  Further, the pair of horizontal frames 7, 7 are arranged in parallel with each other, and each has a band plate-like mounting plate 7a. The mounting plate 7a is attached to the inner peripheral surface of a rectangular opening formed in the wall panel, and the surface facing the outside is a fixing surface 7c that is in contact with and fixed to the inner peripheral surface of the opening. Yes. Further, as shown in FIG. 2, plates 7b and 7b are provided at the left and right ends of the mounting plate 7a so as to face each other in the thickness direction, and between the base ends of these plates 7b and 7b, The end of the upright plate 6b of the vertical frame 6 is inserted. Holes are formed in the base end portions of the plates 7b and 7b and the end portions of the upright plates, respectively, and bolts 7d are inserted into the holes, and nuts are screwed into the inserted bolts 7d and tightened. Thus, the vertical frame 6 and the horizontal frame 7 are connected.

  Further, a base end portion of the fixing member 8 having a T shape in a plan view is inserted between the front end portions of the plates 7b and 7b, and is fixed by welding or the like. A space between the fixed plates 8a and 8a at the front ends of the fixing members 8 and 8 is an installation portion 9 in which the vibration damping box 5 is installed. The fixed plates 8a, 8a are respectively fixed in contact with the end plates at both ends of the vibration control box 5 installed in the installation part 9, and each has four bolt holes 8b.

Support portions 3 and 3 are provided on the standing plates 6b and 6b of the vertical frames 6 and 6, respectively. That is, the support portion 3 includes two support plates 3a and 3a as shown in FIG. The support plate 3a is formed in a substantially isosceles triangular shape, and is arranged with the side facing the top thereof facing up and down and the top facing inward. Since the support plate 3a is formed in a substantially isosceles triangle shape, the center part in the longitudinal direction (vertical direction) is formed wider than the end side. Therefore, the support part 3 constituted by the two support plates 3a and 3a is also formed such that the center part in the longitudinal direction (vertical direction) is wider than the end part side. Further, the pair of support portions 3 and 3 are provided with their top portions opposed to each other at the central portion of the pendulum member 4.
Further, the standing plate 6b is inserted between the side portions along the top and bottom of the pair of support plates 3a, 3a. Then, a plurality of holes are formed at predetermined intervals in the upper and lower sides of the pair of support plates 3a, 3a and the upright plate 6b, respectively, and as shown in FIG. The bolt 6d is inserted, and a nut is screwed into the inserted bolt 6d and tightened, whereby the pair of support plates 3a, 3a, that is, the support portion 3 is provided on the standing plate 6d.

The longitudinal center part of the pair of support parts 3, 3, that is, the top part facing each other, supports the center part in the longitudinal direction of the pendulum member 4, and the pair of support parts 3, 3 is displaced by the vibration. In such a case, it is configured to swing around a substantially central portion between the pair of support portions 3 and 3.
That is, the pendulum member 4 is formed in a plate shape and a substantially rhombus shape, and is arranged with the longitudinal direction thereof directed upward and downward. The left half of the central portion of the pendulum member 4 is sandwiched between the support plates 3 a and 3 a of the one support portion 3, and the right half is sandwiched between the support plates 3 a and 3 a of the other support portion 3.
Further, holes are formed in the top portions of the support plates 3a, 3a of the one support portion 3, and holes are also formed in the top portions of the support plates 3a, 3a of the other support portion 3. On the other hand, a hole is formed in the central portion of the pendulum member 4 so as to be separated from the left and right, and the left hole 4a of these holes is a long hole that is long to the left and right.
Then, the shaft 10 can rotate the pendulum member 4 in the hole formed in the support plates 3a and 3a of the one support portion and the one long hole formed in the center portion of the pendulum member 4. And it is penetrated so that it can slide in the length direction of a long hole. The shaft 10 is formed of, for example, a bolt 10 having a threaded portion at the tip, and the bolt 10 is inserted through the hole, and a nut is screwed into the bolt 10 inserted through the hole.
Further, the shaft 10 is inserted into the hole formed in the support plates 3 a and 3 a of the other support part and the other hole formed in the center part of the pendulum member 4 so that the pendulum member 4 can rotate. Has been. The shaft 10 is also formed by a bolt 10 having a threaded portion at the tip, and the bolt 10 is inserted through the hole, and a nut is screwed into the bolt 10 inserted through the hole.
As a result, the pendulum member 4 is supported by the pair of support portions 3 and 3 via the shafts 10 and 10. When the pair of support portions 3 and 3 are displaced by vibration, the pendulum member 4 is It is configured to swing around a substantially central portion between the pair of support portions 3 and 3, in other words, a central portion between the shafts 10 and 10.

A damping box 5 is attached to the frame 2 so as to face the end of the pendulum member 4.
That is, as shown in FIG. 3, the vibration damping box 5 is attached to the box-like box 15 attached to the installation portion 9 (see FIG. 2) provided on the horizontal frame 7 of the frame 2 and the box 15. A pair of damping rubbers (damping members) 16 and 16 and a plate 17 inserted between the damping rubbers 16 and 16 and fixed to the pair of damping rubbers 16 and 16 are provided.
The box 15 is disposed between a pair of opposing side plates 15a and 15a and both ends of the side plates 15a and 15a, and a pair of end plates 15b and 15b that are detachably attached to the side plates 15a and 15a. It consists of and. Holes are formed in both ends of the pair of side plates 15a, 15a, and bolt holes are formed in the side end surfaces of the pair of end plates 15b, 15b. Then, after these holes and bolt holes are combined, the side plates 15a, 15a and the end plates 15b, 15b are assembled in a box shape by inserting the bolts 18 into the holes, screwing them into the bolt holes and tightening them. The end plates 15b and 15b can be removed from the side plates 15a and 15a by removing the bolts 18. Each of the end plates 15b has four bolt holes 15c.

Further, damping rubbers 16 and 16 are fixed to the opposing inner surfaces of the side plates 15a and 15a by an adhesive or the like, respectively. A plate 17 is inserted between the damping rubbers 16 and 16, and the surface of the plate 17 is fixed to the damping rubbers 16 and 16.
One end portion (upper end portion) of the plate 17 protrudes upward from the box 15, and three holes 17 a... Are formed in the protruding one end portion.

  As shown in FIG. 5, the vibration damping box 5 configured as described above has the box 15 installed in the installation portion 9 provided in the horizontal frame 7, and the fixing plates 8 a and 8 a are attached to the box 5. Abutting on the end plates 15b, 15b, the bolts 19 are inserted through the holes 8b ... of the fixing plates 8a, 8a, screwed into the bolt holes 15c ... of the end plate 15, and tightened, whereby the installation portion 9 It is positioned and fixed.

  Further, the plate 17 of the damping box 5 and the end of the pendulum member 4 are connected. That is, first, at the end of the pendulum member 4, three holes are formed at predetermined intervals in the horizontal direction. The end surface of the pendulum member 4 is in contact with the end surface of the plate 17 of the vibration damping box 5. And the plates 20 and 20 are provided so that the edge part of the pendulum member 4 and the edge part of the plate 17 may be pinched | interposed. Three holes are respectively formed in the upper and lower portions of the plates 20 and 20 at predetermined intervals in the lateral direction, and bolts 21 are inserted through the upper holes and the holes formed at the end of the pendulum member. The nut 21 is screwed and tightened, the bolt 21 is inserted into the lower hole and the hole formed in the plate 17, and the nut is screwed and tightened, whereby the plate 17 and the pendulum member 4 of the damping box 5 are tightened. The end portions are connected via the plates 20 and 20.

The vibration damping device 1 configured as described above is incorporated into a wall panel 30 that constitutes a wall of a house, for example, as shown in FIG. That is, the wall panel 30 is formed by, for example, connecting an upper small wall panel 31 and a lower waist wall panel 32 with left and right column members 33, 33, and an opening 34 is formed at the center thereof. Is formed. The opening 34 is formed in a rectangular shape, and the frame 2 of the vibration damping device 1 is inserted inside the opening 34.
A surface facing the outside of the mounting plates 6a and 6a of the pair of vertical frames 6 and 6 constituting the frame 2 is a fixed surface 6c, and this fixed surface 6c contacts the inner peripheral surface along the vertical direction of the opening 34. The vertical frames 6 and 6 are attached to the inner peripheral surface along the vertical direction by being screwed into the inner peripheral surface along the vertical direction of the opening through the screws through the mounting plates 6a and 6a.
Similarly, a surface facing the outside of the mounting plates 7a, 7a of the pair of horizontal frames 7, 7 constituting the frame 2 is a fixed surface 7c, and this fixed surface 7c is an inner side along the horizontal and vertical direction of the opening 34. The horizontal frames 7 and 7 are attached to the inner peripheral surface along the horizontal direction by being fixed to the peripheral surface and screwed into the mounting plates 7a and 7a through screws and into the inner peripheral surface along the vertical direction of the opening. .
In this way, the damping wall panel 35 according to the present invention is configured by incorporating the damping device 30 into the opening 34 of the wall panel 30.

In the damping wall panel 35 as described above, first, when the building incorporating the damping wall panel 35 is deformed due to rolling vibration such as an earthquake, the rectangular frame 2 of the damping wall panel 35 is substantially parallel. Deforms to a quadrilateral shape. That is, the horizontal frames 7 and 7 of the frame 2 move so as to be shifted to the left and right, and the rectangular frames 2 are deformed into a substantially parallelogram shape by the vertical frames 6 and 6 being inclined in the horizontal direction.
When the frame 2 is deformed into a substantially parallelogram shape, the pair of support portions 3 and 3 are displaced so as to be separated from each other diagonally up and down.
When the pair of support portions 3 and 3 are displaced, the pendulum member 4 swings like a pendulum around the substantially central portion between the pair of support portions 3 and 3, and the end of the pendulum member 4 is amplified in swing. As a result, the displacement of the pair of support portions 3 and 3 is amplified.
The end portion of the pendulum member 4 and the plate 17 of the vibration damping box 5 are connected to each other. The connecting plate 17 is inserted between the vibration damping rubbers 16 and 16 and fixed to the pair of vibration damping rubbers 16 and 16. Therefore, the deformation of the damping rubbers 16, 16 can be amplified. Therefore, the vibration control function can be used effectively from a small deformation of the building.
In addition, since the deformation speed of the vibration damping rubbers 16 and 16 can be amplified from the deformation speed of the building, when using the vibration damping rubber formed of a viscoelastic material whose energy absorption performance is proportional to the deformation speed, It can absorb energy efficiently and exert a great damping force.

For example, as shown in FIG. 7, the damping wall panel 35 provided with the damping device 1 as described above can be provided with three consecutive panels to enhance the damping effect. In this case, the column member 33 constituting the wall panel 30 may be shared by the adjacent wall panels 30 and 30.
Further, by replacing a desired wall panel of the plurality of wall panels constituting the building with the damping wall panel 35, the damping structure can be easily and reliably introduced into the building. That is, it is possible to easily introduce the vibration control device to the wall portion at the place where the vibration is most likely in the event of an earthquake.
Furthermore, since the damping wall panel 35 to which the damping device 1 is attached can be manufactured in advance in a factory or the like, the damping structure can be added to the building by installing the damping wall panel 35 at the site. It can be easily introduced and construction on site is simple.

Further, since the damping box 15 is attached to the horizontal frame 7 so as to face the pendulum member 4, the pendulum member 4 and the plate 17 of the damping box 15 can be easily connected.
Further, since the vibration damping box 15 is manufactured separately and the vibration damping box 15 can be attached to the horizontal frame 7, the vibration damping device 1 can be easily assembled.
Further, since one end portion of the plate 17 protruding from the box 15 is connected to the end portion of the pendulum member 4, even if the end portion of the pendulum member 4 is not directly fixed to the damping rubber 16 in the box 15, The function of the rubber 16 can be applied to the pendulum member 4. Fixing the end of the pendulum member 4 directly to the damping rubber 16 in the box 15 is a laborious operation, but the end of the pendulum member 4 is connected to one end of the plate 17 protruding from the box 15. This is an easy task.

  In addition, by removing the pair of end plates 15b from the pair of side plates 15a constituting the damping box 15, the damping rubber 16 can be easily fixed to the inner surface of the side plate 15a, and in this state, between the pair of side plates 15a, 15a. The plate 17 is disposed so as to oppose the vibration damping rubbers 16 and 16, and the end plates 15b and 15b are arranged between the end portions of the pair of side plates 15a and 15a so that the end plates 15b and 15b are connected to the side plates 15a and 15a. By attaching to the plate 17, the vibration damping rubber 16, 16 can sandwich the plate 17, and the vibration damping rubber 16, 16 can be fixed to the plate 17. Further, since the box 15 has no bottom plate, the weight can be reduced accordingly.

Moreover, since the installation part 9 is provided in the horizontal frame 7, the damping box 5 can be stably installed in this installation part 9, and the end plate of the both ends of this installed damping box 5 is provided. The damping box 5 can be easily and reliably attached to the frame 1 by abutting and fixing the fixing plates 8a and 8a to 15b and 15b.
Further, since the fixed surfaces 6c and 7c are formed on the outer peripheral surface of the frame 2, the frame 2 is attached to the wall by fixing the fixed surfaces 6c and 7c in contact with the inner peripheral surface of the opening 34 of the wall panel. It can be easily and securely attached to the panel.

Moreover, since the center part in the longitudinal direction of the pendulum member 4 is supported by the center part in the longitudinal direction of the pair of support parts 3, 3, the pendulum member 4 and the support parts 3, 3 receive a load at the center part in the longitudinal direction. Concentrated, the pendulum member 4 is formed such that the longitudinal center portion is wider than the end side, and the support members 3 and 3 are formed so that the longitudinal center portion is wider than the end side. In addition to being able to withstand even if the load concentrates on those parts, the end side is narrower than the center part, so that the material of the pendulum member 4 and the support parts 3 and 3 can be reduced accordingly. Can do.
Moreover, since the pendulum member 4 is formed in a substantially rhombus shape and becomes symmetric with respect to the central portion thereof, the pendulum member 4 is swung around the substantially central portion between the pair of support portions 3 and 3. Balance is improved.
Furthermore, since the top portions of the pair of support portions 3 and 3 formed in a substantially isosceles triangle shape are provided so as to face each other at the center portion of the pendulum member 4, the center portion of the pendulum member 4 is surely secured by the top portions. I can support it.
Moreover, since two central parts of the pendulum member 4 are supported on the tops of the pair of support parts 3 and 3, respectively, the pendulum member 4 is centered on a substantially central part between the pair of support parts 3 and 3. It can be configured to swing.

Further, the right half of the central portion of the pendulum member 4 is sandwiched between a pair of support plates 3 a and 3 a of one support portion 3, and the left half is sandwiched between a pair of support plates 3 a and 3 a of the other support portion 3. When the pendulum member 4 swings around the substantially central portion between the pair of support portions 3 and 3, the center portion of the pendulum member 4 is guided in the swing direction by the pair of support plates 3a and 3a. can do. Therefore, the swing of the pendulum member 4 can be made smooth.
In addition, the pendulum member 4 is supported by shafts 10 and 10 respectively inserted into a pair of holes formed in the center portion of the pendulum member 4, and these shafts 10 and 10 are connected to the pair of support portions 3 and 3. Since the pendulum member 4 can be swung around the substantially central portion between the pair of support portions 3 and 3 by the pair of support portions 3 and 3. The runout is smooth.
Further, when the pair of support portions 3 and 3 are displaced, the pendulum member 4 is swung like a pendulum around the substantially central portion between the pair of support portions 3 and 3. The distance between the shafts 10 and 10 provided is slightly increased or decreased. Of the pair of holes into which the shafts 10 and 10 are inserted, the left hole is a long hole 4a. By increasing or decreasing the distance between the shafts 10 and 10 through the holes 4a, the pendulum member 4 can be smoothly shaken.

Further, the damping wall panel 35 as described above, for example, as shown in FIG. 8, is installed on a floor 41 provided on the foundation 40, and then protrudes from the foundation 40 and penetrates the floor 41. 42, 42. The anchor bolts 42, 42 have plates 43, 43 fixed to the floor 41 with a slight gap, and the pillar members 33, 33 of the damping wall panel 35 are placed on the plates 43, 43. .
Further, a floor 44 on the second floor is installed on the damping wall panel 35, and the floor 44 on the second floor and the damping wall panel 35 are connected by a plurality of steel gussets 45. .

Then, when the upper floor 44 is supported from below by the damping wall panel 35, the downward force acting from the floor 44 is applied to the foundation 40 through the pair of left and right pillar members 33, 33, and the anchor bolts 42, 42 are attached to the foundation 40. Can be transmitted through.
Accordingly, the downward force acting from the floor 44 on the second floor hardly acts on the vibration damping device 1, and therefore, the support unit 3 constituting the vibration damping device 1 or the normal time when no earthquake or the like occurs. An excessive force does not act on the pendulum member 4, and the vibration damping device 1 can be reliably operated in the event of an earthquake or the like.

Furthermore, as shown in FIG. 9, the damping wall panel 35 as described above is filled in the wall panel 30 in a state where the heat insulating material 50 does not restrict the swing of the pendulum member 4.
That is, the heat insulating material 50 is made of glass wool, and is filled in one side of the pendulum member 4 and the support portions 3 and 3 that support it inside the wall panel 30. For example, when the damping wall panel 35 is used as an outer wall panel, the damping wall panel 35 is filled on the side facing the outdoor side (external side). The heat insulating material 50 may be filled not only on one side but also on the other side in the wall panel 30.
Since the heat insulating material 50 is larger than the space for filling it, the heat insulating material 50 is filled while being compressed. After the heat insulating material 50 is filled, a face material 51 made of plywood or gypsum board is attached to both sides of the wall panel 30 so that the opening 34 is closed. Wooden base materials 52 and 52 are fixed to the support plates 3 a and 3 a of the support portion 3, and the face material 51 is attached to the wooden base materials 52 and 52.

  Thus, since the heat insulating material 50 is filled in the wall panel 30, the heat insulating structure can be obtained when the damping wall panel 35 is used for the outer wall portion. Moreover, since the heat insulating material 50 does not restrict the swing of the pendulum member 4, the vibration damping function is not impaired by filling the heat insulating material 50.

  In the present embodiment, the heat insulating material 50 is filled in the wall panel 30, but instead, the heat insulating material 55 may be attached to the outer surface of the wall panel 30 as shown in FIG. 10. In this case, a heat insulating material 55 having a size substantially equal to that of the face material 51 is attached to the outer surface of the face material 51. The heat insulating material 55 is formed of a resin foam material such as styrofoam or polystyrene foam.

An example of the damping device attached to the damping wall panel which concerns on this invention is shown, and it is the front view. Same is a perspective view illustrating an installation section of the damping device. It is a perspective view which shows the damping box of a damping device. It is a perspective view which shows the support part and pendulum member of a damping device. It is a perspective view which shows the connection part of a damping box and a pendulum member similarly. It is a front view which shows the damping wall panel which concerns on this invention. It is a front view which shows the state which arranged the damping wall panel shown in FIG. 6 continuously. It is a front view which shows the state which installed the damping wall panel shown in FIG. 6 on the foundation. FIG. 7 is a plan sectional view showing a state where a heat insulating material is filled in the damping wall panel shown in FIG. 6. It is a plane sectional view which shows the state which attached the heat insulating material to the outer surface of the damping wall panel shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Damping device 2 Frame 3 Support part 3a Support plate 4 Pendulum member 5 Damping box 6 Vertical frame 7 Horizontal frame 8a Fixing plate 9 Installation part 10 Shaft 15 Box 15a Side plate 15b End plate 16 Damping rubber 17 Plate 30 Wall panel 31 Small wall panel 32 Waist wall panel 33 Column material 34 Opening 35 Damping wall panel 50, 55 Thermal insulation

Claims (7)

An opening is formed in the building wall panel, and a damping wall panel in which a damping device is attached in the opening,
The vibration damping device is mounted in the opening and is deformed into a parallelogram shape by vibration, a pair of support portions provided facing the vertical frame of the frame , and the pair of supports And a pendulum member configured to swing around a substantially central portion between the pair of support portions when the pair of support portions are displaced by vibration, and the end portion of the pendulum member and the frame A damping wall panel comprising a damping member provided between the first and second damping members. The damping wall panel according to claim 1,
The damping wall panel according to claim 1, wherein a fixed surface that is in contact with and fixed to an inner peripheral surface of an opening formed in the wall panel is formed on an outer peripheral portion of the frame. The damping wall panel according to claim 1 or 2,
The damping member is composed of a pair of damping rubbers attached to a box-like box attached to the frame so as to face the end of the pendulum member,
A damping wall panel characterized in that a plate is inserted between these damping rubbers and is fixed to the pair of damping rubbers, and the plate and the end of the pendulum member are connected. The damping wall panel according to claim 3,
One end portion of the plate protrudes from the box, and the protruding one end portion is connected to an end portion of the pendulum member. In the damping wall panel according to claim 3 or 4,
The frame is provided with an installation portion for installing the box, and a damping plate that is fixed to abutment with the wall portions at both ends of the box installed in the installation portion. Wall panel. In the damping wall panel as described in any one of Claims 1-5,
The wall panel is provided between a pair of left and right column members, a small wall panel fixed to the upper end portion, and a lower end portion of the column member. A waist wall panel fixed to the section,
A damping wall panel, wherein a vertical frame of the frame is attached to the column member, and the support portion is attached to the vertical frame. In the damping wall panel as described in any one of Claims 1-6,
The damping wall panel according to claim 1, wherein a heat insulating material is provided on the wall panel in a state in which the swinging of the pendulum member is not restricted.

Images