JP4483046B2 - Seismic isolation structure displacement limiting device - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a seismic isolation structure for a structure.
[0002]
[Prior art]
In order to suppress an excessive deformation due to an earthquake of a base-isolated structure, a displacement limiting device using a string-like body is known.
[0003]
However, the space where the seismic isolation device is installed is limited in height and requires space in the horizontal direction.
[0004]
[Problems to be solved by the invention]
The problem to be solved is that the displacement limiting device cannot be mounted in a small space in a limited space. In addition, when the seismic isolation device is attached to the pillar portion of the intermediate floor of the building, fire resistance is required, and when exposed to wind and rain, water resistance and dust resistance are required.
[0005]
[Means for Solving the Problems]
In order to solve the above problems, the present invention has the following configuration. The invention of claim 1 (for example, FIG. 1 and FIG. 3) is a seismic isolation bearing that is interposed between the lower structure 3 and the upper structure 2 and supports the upper structure 2 so as to be movable in the horizontal direction. In the seismic isolation structure with 1, at least one string-like body 21 that tensions when the upper structure 2 is displaced by a predetermined amount and restricts the displacement of the structure, and one end of the string-like body One fixing means 41 provided via one fixing body, and the other fixing means 41 provided via the other fixing body are provided at the other end of the string-like body 21,
One fixing means 41 is swingably connected to the lower structure side, and the other fixing means 41 is swingably connected to the upper structure side.
There is a separating means (for example, FIG. 4) for separating one fixed body and the other fixed body at a stationary position of the superstructure, and the separating means is a first connected to the one fixed body so as to be rotatable. A rigid member, a second rigid member rotatably connected to the other fixed body, and an elastic member fixed to the first rigid member and fixed to the second rigid member. This is a displacement limiting device 11 for a base-isolated structure.
[0006]
According to the displacement limiting device of the first aspect, in the seismic isolation structure, the lower structure side and the upper structure side are connected to each other by the string-like body, the fixing body, and the fixing means, and between the lower structure body and the upper structure body. When the displacement reaches a predetermined amount, it can be tensioned to limit the excessive displacement of the structure. In addition, since the fixed bodies have means for separating from each other during horizontal movement, it is possible to provide a displacement limiting device that can be securely stored in a narrow space around the seismic isolation device without collision. .
[0007]
The invention of claim 2 (for example, FIG. 5) includes a seismic isolation bearing 1 interposed between the lower structure 3 and the upper structure 2 and supporting the upper structure 2 so as to be movable in the horizontal direction. In the seismic isolation structure, at least one string-like body 21 that is tensioned when the upper structure 2 is displaced by a predetermined amount and restricts the displacement of the structure, and one rod at one end of the string-like body. One fixing means 41 provided via the stick-like fixing body 61 and the other fixing means 41 provided via the other rod-like fixing body 61 are provided at the other end of the string-like body 21.
One fixing means 41 is swingably connected to the lower structure side, and the other fixing means 41 is swingably connected to the upper structure side.
There is a separating means for separating one fixed body from the other fixed body at a stationary position of the upper structure, and the separating means is linearly movable via a rail 76 provided on one rod-shaped fixed body 61. The attached first locking tool, the second locking tool attached linearly via a rail 76 provided on the other rod-shaped fixing member 61, and one end portion of the first locking tool. There is a rigid member that is pivotally connected to the latching tool and whose other end is pivotally coupled to the second latching tool, and the first latching tool is one rod-like fixed body. 61. A displacement limiting device 12 for a seismic isolation structure, wherein the second locking member is connected to the other rod-shaped fixed body 61 and a spring 32.
[0008]
According to the displacement limiting device of the second aspect, when the displacement between the lower structure and the upper structure reaches a predetermined amount, it is tensioned to limit the excessive displacement of the structure. In addition, since the fixed body has a separating means when the upper structure moves horizontally, the displacement limiting apparatus can be securely stored in a narrow space around the seismic isolation device without colliding. be able to.
[0009]
The invention of claim 3 (for example, FIG. 6) includes a seismic isolation bearing 1 interposed between the lower structure 3 and the upper structure 2 and supporting the upper structure 2 so as to be movable in the horizontal direction. In the seismic isolation structure, at least one string-like body 21 that is tensioned when the upper structure 2 is displaced by a predetermined amount and restricts the displacement of the structure, and one rod at one end of the string-like body. One fixing means 41 provided via the stick-like fixing body 61 and the other fixing means 41 provided via the other rod-like fixing body 61 are provided at the other end of the string-like body 21.
One fixing means 41 is swingably connected to the lower structure side, and the other fixing means 41 is swingably connected to the upper structure side.
There is a separating means for separating one fixed body and the other fixed body at a stationary position of the upper structure, and the separating means has a spring 33 member, and this spring member 33 is one rod-shaped fixed body. 61 and the lower structure 3 or between the other rod-like fixed body 61 and the upper structure 2. .
[0010]
According to the displacement limiting device of the third aspect, when the displacement between the lower structure and the upper structure reaches a predetermined amount, it is tensioned to limit the excessive displacement of the structure. In addition, since the fixed bodies have means for separating from each other when the upper structure is moved horizontally, the displacement limiting device can be securely stored in a small space in a narrow space around the seismic isolation device without collision. can do.
[0011]
The invention of claim 4 (for example, FIG. 6) includes a seismic isolation bearing 1 interposed between the lower structure 3 and the upper structure 2 and supporting the upper structure 2 so as to be movable in the horizontal direction. In the seismic isolation structure, at least one string-like body 21 that is tensioned when the upper structure 2 is displaced by a predetermined amount and restricts the displacement of the structure, and one rod at one end of the string-like body. One fixing means 41 provided via the stick-like fixing body 61 and the other fixing means 41 provided via the other rod-like fixing body 61 are provided at the other end of the string-like body 21.
One fixing means 41 is swingably connected to the lower structure side, and the other fixing means 41 is swingably connected to the upper structure side.
There is a separation means for separating one fixed body and the other fixed body at a stationary position of the superstructure, and the separation means has two spring members 33, and one spring member 33 is one of The rod-shaped fixed body 61 and the lower structure 3 are interposed, and the other spring member 33 is interposed between the other rod-shaped fixed body 61 and the upper structure 2. Seismic isolation structure displacement limiting device 13.
[0012]
According to the displacement limiting device of the fourth aspect, the same effect as in the third aspect can be obtained, and the separating means has two springs, so that the fixed body does not collide more reliably. It can be set as a displacement limiting device that is small and neatly stored in a narrow space around the seismic isolation device.
[0013]
The invention according to claim 5 (for example, FIG. 1, FIG. 3, FIG. 5, FIG. 6) is the displacement limiting device for a seismic isolation structure according to any one of claims 1 to 4, wherein at least one fixing body is a rod-like fixing. It is characterized by comprising a body 61.
[0014]
According to the displacement limiting device of the fifth aspect, the same effects as in the first to fourth aspects can be obtained, and at least one of the fixed bodies is made of a rod, so that the separating means can be configured with a simpler member. it can.
[0015]
The invention of claim 6 (for example, FIGS. 7 to 9) is the displacement limiting device for a seismic isolation structure according to any of claims 1 to 5, wherein at least one fixed body is composed of a rod-shaped fixed body 61 and a hood 82. This is a displacement limiting device 14, 15, 16 for a seismic isolation structure.
[0016]
According to the displacement limiting device of the sixth aspect, the same effect as in the first to fifth aspects can be obtained, and since the hood is added, the operation of the separating means is made more reliable, and the inner string The effect which protects the body is acquired.
[0017]
The invention of claim 7 (for example, FIG. 10) includes a seismic isolation bearing 1 that is interposed between the lower structure 3 and the upper structure 2 and supports the upper structure 2 so as to be movable in the horizontal direction. In the seismic isolation structure, at least one string-like body 22 that is tensioned when the upper structure 2 is displaced by a predetermined amount and restricts the displacement of the structure, and one end of the string-like body 22 has one end The fixing means 41 and the other fixing means 41 are provided at the other end of the string-like body 22, and the fixing means 41 is provided with at least one insertion means 47 for inserting the string-like body 22. The at least one insertion means 47 is inserted into at least one closed body 22 to form at least one closed shape between the lower structure 3 and the upper structure 2, and the ends of the string-like body 22 are connected to each other. Alternatively, it is swingably connected to the lower structure 3 or the upper structure 2 A displacement limiting device 17 wherein.
[0018]
According to the displacement limiting device of the seventh aspect, the same effect as in the first to sixth aspects can be obtained, and a thin string-like body can be used because the string-like body resists deformation with a plurality of strings, Follow deformation more flexibly. Further, since the fixing means is provided with the insertion means, it is possible to obtain an effect that the fixing means is fixed to the upper structure and the lower structure with a smaller size.
[0019]
In the invention of claim 8 (for example, FIGS. 11 to 14), in the displacement limiting device 17 for the seismic isolation structure according to claim 7, the insertion means 47 is at least one hollow cavity 47 provided in the base plate. The hollow space 47 is characterized by having a curved shape that gradually expands from the inside toward the opening.
[0020]
According to the displacement limiting device of the eighth aspect, the same effect as in the first to seventh aspects can be obtained, and the string-like body is smoothly curved and in contact with the hollow space, so that the damage is small.
[0021]
The invention of claim 9 (for example, FIG. 13) is the seismic isolation structure displacement limiting device according to any of claims 7 to 8, wherein a sliding member 53 is interposed between the string-like body 22 and the insertion means 47. It is characterized by being.
[0022]
According to the displacement limiting device of the ninth aspect, the same effect as in the first to eighth aspects can be obtained, and a sliding member is interposed between the string-shaped body and the insertion means. The effect that a uniform tension is applied to is obtained.
[0023]
The invention of claim 10 (for example, FIG. 1, FIG. 3, FIG. 5, FIG. 7, FIG. 10) is the string-like shape in the displacement limiting devices 11-17 of the base isolation structure according to any one of claims 1-9. The bodies 21 and 22, the rod-like fixing body 61, the fixing means 41, and the separating means are for preventing the adhesion of rainwater. The waterproof means 81, which covers these and is interposed between the lower structure and the upper structure. 82, 84 to 87.
[0024]
According to the displacement limiting device of the tenth aspect, the same effects as in the first to ninth aspects can be obtained, and since the displacement limiting device is covered with waterproof means, the displacement limiting device has a dustproof effect and waterproofing. An effect is given.
[0025]
The invention of claim 11 (for example, FIG. 1, FIG. 3, FIG. 5, FIG. 7, FIG. 10) is the displacement limiting device for the seismic isolation structure according to any one of claims 1 to 10, 22, rod-like fixed body 61, fixing means 41, and separation means are for preventing rainwater from adhering, and refractory materials 81, 82, interposed between the lower structure and the upper structure to cover them. It has 84-87.
[0026]
According to the displacement limiting device of the eleventh aspect, the same effects as those of the first to tenth aspects can be obtained, and the bellows-shaped protective material, the hood, the packing, and the like are made of a refractory material. Has fire resistance.
[0027]
The invention of claim 12 (eg, FIG. 1, FIG. 3, FIG. 15) is the displacement limiting device for a seismic isolation structure according to any of claims 1 to 11, wherein the fixing means 41 is made of a high-strength fiber material. It is characterized by having a connecting string-like ring 42 or an annular ring 43.
[0028]
According to the displacement limiting device of the twelfth aspect, the same effect as that of the first to eleventh aspects can be obtained, and the fixing unit is made of a high-strength fiber material. Can be made smaller and tightly coupled to the structure.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of a displacement limiting device in a seismic isolation structure according to the present invention will be described below in detail with reference to the drawings.
[0030]
(First embodiment)
FIG. 1 is a longitudinal sectional view of the present embodiment and shows a structure to which a displacement limiting device 11 is attached. In this example, the seismic isolation bearing 1 (not shown) is interposed between the upper structure 2 constituting the pillar of the building and the lower structure 3 constituting the lower part of the pillar provided on the foundation side of the building. The displacement limiting device 11 is connected to the upper structure 2 and the lower structure 3 via the fixing means 41. A bellows-like protective material 81 is attached around the displacement limiting device 11 and the fixing means 41.
[0031]
The upper structure 2 and the lower structure 3 are rectangular as shown in FIG. 2, the seismic isolation bearing 1 is disposed at the center, and the displacement limiting devices 11 are disposed at the four corners. The displacement limiting device 11 has a string-like body 21 provided therein, and a bellows-like protective material 81 is attached to the periphery thereof. A fireproof covering 80 is attached to the seismic isolation bearing 1.
[0032]
FIG. 3A is a longitudinal sectional view showing the displacement limiting device of the present embodiment, and FIG. 3B is a longitudinal sectional view showing the operation of the displacement limiting device.
[0033]
In this embodiment, the seismic isolation bearing 1 (not shown) is interposed between the upper structure 2 constituting the pillar of the building and the lower structure 3 constituting the lower part of the pillar provided on the foundation side of the building. It is disguised. The displacement limiting device 11 includes a string-like body 21 that is tensioned to regulate the displacement of the structure when the upper structure 2 is displaced by a predetermined amount, and one rod-like fixed body 61 at one end of the string-like body. One fixing means 41 provided via the other fixing means 41 provided via the other rod-like fixing body 61 is provided at the other end of the string-like body 21.
One fixing means 41 is swingably connected to the lower structure side, and the other fixing means 41 is swingably connected to the upper structure side. The fixing means 41 is installed so as to be in the same position in plan view when the seismic isolation bearing 1 is stationary when no displacement occurs. At least one string-like body 21 and fixing means 41 are installed and set to the same length.
[0034]
In this embodiment, the fixed body is a rod-shaped fixed body 61. A string-like ring 42 constituting the string-like body 21 and the fixing means 41 is fixed by a hollow rod-like fixing body 61 covering both.
A first rigid member having a separating means for separating one fixed body from the other fixed body at a stationary position of the upper structure, and the separating means is rotatably connected to one rod-shaped fixed body 61. As an inner cylinder 73, an outer cylinder 74 as a second rigid member rotatably connected to the other fixed body, and an elastic member fixed to the inner cylinder 73 and fixed to the outer cylinder 74 The spring 31 is provided. When the structure is moved horizontally, the rod-like fixed bodies 61 do not collide with each other.
When the structure is stationary, the string-like body 21 is bent and stored, and when deformation occurs due to an earthquake, the string-like body 21 is tensioned to limit the displacement of the building to a certain level.
[0035]
As shown in FIG. 4, the separation means is provided with a protrusion 71 on the opposite side of the opposing surface of the rod-shaped fixed body 61, and a pipe 72 is attached to the tip of the protrusion 71. A U-shaped bearing 73a is inserted into one end of the pipe 72, and an inner cylinder 73 is provided on the extension of the bearing. A U-shaped bearing 74a is inserted into the other end, and an outer cylinder 74 is provided on the extension of the bearing. The inner cylinder 73 is inserted into the outer cylinder 74. A spring 31 is attached to the inside of the inner cylinder 73.
[0036]
Reverse rotation prevention stoppers 101 are provided at both ends of the pipe 72, and reverse rotation prevention stoppers 102 are provided at the bearings 73a and 74a. The reverse rotation preventing stoppers 101 and 102 are attached so that the string-like body 21 abuts when the string-like body 21 is in tension, and is separated when the string-like body 21 is bent. Accordingly, when the rod-like fixed bodies 61 are restored from the tensioned state to the stationary attachment position, the rod-like fixed bodies 61 are prevented from moving in the reverse direction and are reliably stored in the original positions. An elastic material such as rubber may be provided on the contact surfaces of the reverse rotation prevention stopper 101 and the reverse rotation prevention stopper 102 so as to be stored more reliably.
[0037]
When the seismic isolation bearing 1 is not displaced, the rod-like fixed bodies 61 are separated in directions that do not collide with each other due to the repulsive force of the springs. On the other hand, deformation occurs due to the earthquake and the string-like body 21 is tensioned. When acting on, the spring 31 extends and does not hinder the operation of the string-like body 21. Although the spring 31 is provided in the inner cylinder 73 in this embodiment, it may be provided outside the outer cylinder 74, and other means for guiding linear motion instead of the inner cylinder 73 and the outer cylinder 74. May be used.
[0038]
Here, the fixing means 41 has its lower end fixed to the lower structure 3 and its upper end fixed to the upper structure 2. In the fixing means 41, a string-like ring 42 fixed in a rod-like fixing body 61 is inserted into an annular ring 43 fixed to a base plate 44, and the base plate 44 is bolted to the lower structure 3 or the upper structure 2. It is comprised so that it may bind with 45. The annular ring 43 may be made of a high-strength fiber material, or may be a metal member such as high-strength brass steel formed integrally with the base plate 44.
[0039]
Moreover, the said string-like body 21, the string-like ring | wheel 42, and the ring 43 are aramid fiber as a synthetic fiber, a polyamide fiber, a polyester fiber, a polyvinyl alcohol fiber, etc., from other high strength fibers, such as carbon fiber and glass fiber. Become.
[0040]
A bellows-like protective material 81 is attached around the string-like body 21, the fixing means 41, and the rod-like fixed body 61. In addition, a fireproof material is provided inside the bellows-like protective material 81. The bellows-like protective material 81 and the fire-resistant material are composed of a suitable combination of fire-resistant materials such as rock wool, ceramic fiber blanket, glass cloth, fire-resistant non-woven fabric having flexibility, and other waterproof skin materials. Yes. As a result, the displacement limiting device is provided with a dustproof effect / waterproof effect / fireproof performance.
[0041]
(Second Embodiment)
The displacement limiting device 12 of the present invention is obtained by replacing the spring 31 in the displacement limiting device 11 described in Embodiment 1 with a spring 32 shown in FIG.
[0042]
One end of the spring 32 is attached to a pipe 72 provided so as to be movable in a direction parallel to the axis of the rod-shaped fixed body 61, and the other end is connected to the root of the rod-shaped fixed body 61 on the fixing means 41 side. The pipe is attached to a linear motion bearing 77, and the bearing is attached to a rail 76 provided to extend on the opposite side of the opposing surface of the upper and lower rod-shaped fixed body 61. A ring 75 is inserted and attached to the pipe 72. When the seismic isolation bearing 1 is not displaced, the rod-like fixed bodies 61 are separated by springs so that they do not collide with each other. On the other hand, deformation occurs due to the earthquake and the string-like body 21 acts in a tensioning direction. In this case, the spring 32 extends and does not hinder the operation of the string-like body 21. A bellows-like protective material 81 is attached around the string-like body 21, the fixing means 41, and the rod-like fixed body 61.
[0043]
Although not shown, like the first embodiment, reverse rotation preventing stoppers 101 and 102 are attached to the pipe 72 and the ring 75, respectively, so that they are securely stored in their original positions. .
[0044]
(Third embodiment)
The displacement limiting device 13 of the present invention is obtained by replacing the spring 31 in the displacement limiting device 11 described in Embodiment 1 with a spring 33 shown in FIG.
[0045]
One end of the spring 33 is attached to the tip of a protrusion 71 provided on the rod-shaped fixed body 61, and the other end is connected to the base plate 44. When the seismic isolation bearing 1 is not displaced, the rod-like fixed bodies 61 are separated by springs so that they do not collide with each other. On the other hand, deformation occurs due to the earthquake and the string-like body 21 acts in a tensioning direction. In such a case, the spring 33 extends and does not hinder the operation of the string-like body 21. Although not shown, a bellows-like protective material 81 is attached around the string-like body 21, the fixing means 41, and the rod-like fixed body 61.
[0046]
(Fourth embodiment)
The displacement limiting device 14 of the present invention is obtained by replacing the spring 31 in the displacement limiting device 11 described in Embodiment 1 with a spring 34 shown in FIG. Further, the fixed body of this example is constituted by a rod-shaped fixed body 61, a hood 82 and a retaining ring 83.
[0047]
The rod-shaped fixed body 61 is covered with a hood 82, and the distal end portion of the hood 82 on the narrowed side is attached to the rod-shaped fixed body 61. A retaining ring 83 is inserted into the rod-shaped fixing body 61, and the retaining ring 83 is connected to the hood 82. The retaining ring 83 keeps the rod-like fixed body 61 and the hood 82 at a close and constant distance. The upper and lower opposing hoods 82 are connected by a spring 34 via a projection 71 attached to the hood 82. A packing 84 is interposed in the gap between the opposing surfaces of the hood 82. The packing 84 is fixed to one of the opposing hoods 82 and is in close contact with the other. A bellows-like protective material 85 is attached around the fixing means 41. When the seismic isolation bearing 1 is not displaced, the rod-like fixed bodies 61 are separated by springs so that they do not collide with each other. On the other hand, deformation occurs due to the earthquake and the string-like body 21 acts in a tensioning direction. In such a case, the spring 34 extends and does not hinder the operation of the string-like body 21. The displacement limiting device is provided with a dustproof effect, a waterproof effect, and a fireproof performance by the hood 82, the packing 84, and the bellows-like protective material 85.
[0048]
(Fifth embodiment)
The displacement limiting device 15 of the present invention is obtained by replacing the spring 34 in the displacement limiting device 14 described in Embodiment 4 with the spring 35 and the ring-shaped member 86 shown in FIG. The fixed body of this example is composed of a rod-shaped fixed body 61, a hood 82, and a retaining ring 83, and the elastic member is composed of a spring 35 and a ring-shaped member 86.
[0049]
The upper and lower opposing hoods 82 are connected by a spring 35 via a ring-shaped member 86 and a protrusion 71. A packing 84 is interposed in the gap between the opposing surfaces of the hood 82, and the packing 84 is fixed to the hood 82 and is in close contact with the ring-shaped member 86 so as to face each other. When the seismic isolation bearing 1 is not displaced, the rod-like fixed bodies 61 are separated by springs so that they do not collide with each other. On the other hand, deformation occurs due to the earthquake and the string-like body 21 acts in a tensioning direction. In this case, the spring 35 extends and does not hinder the operation of the string-like body 21. Further, the hood 82, the packing 84, the ring-shaped member 86, and the bellows-shaped protective material 85 (not shown) give the displacement limiting device a dustproof effect, a waterproof effect, and a fireproof performance.
[0050]
(Sixth embodiment)
In the displacement limiting device 16 of the present invention, the spring 35 and the ring-shaped member 86 in the displacement limiting device 15 described in the fifth embodiment are replaced with the spring 36 and a plurality of ring-shaped members 87 as shown in FIG. It is. The fixed body of this example is composed of a rod-shaped fixed body 61, a hood 82, and a retaining ring 83, and the elastic member includes a spring 36 and a ring-shaped member 87.
[0051]
The upper and lower opposing hoods 82 are connected to a ring-shaped member 87 by a spring 36. A bellows-like protective material 88 is interposed in the gap between the hood 82, the ring-shaped member 87, and the ring-shaped member 87. When the seismic isolation bearing 1 is not displaced, the rod-like fixed bodies 61 are separated by springs so that they do not collide with each other. On the other hand, deformation occurs due to the earthquake and the string-like body 21 acts in a tensioning direction. In this case, the spring 36 extends and does not hinder the operation of the string-like body 21. Further, the hood 82, the ring-shaped member 87, the bellows-shaped protective material 88, and the bellows-shaped protective material 85 (not shown) give the displacement limiting device a dustproof effect, a waterproof effect, and a fireproof performance.
[0052]
(Seventh embodiment)
As shown in FIG. 10, the displacement limiting device 17 of the present invention has an insertion port as an insertion means provided on the fixing means 41 of the upper structure 2 by using an end fixing tool 48 at one end of the thin string-like body 22. 47 is swingably connected. In this embodiment, the insertion port 47 is a base plate 44 provided with a hollow cavity. The string-like body 22 is inserted through an insertion port 47 as an insertion means provided in the fixing means 41 of the lower structure 3. Similarly, the string-like body 22 is inserted into the insertion opening 47 of the upper structure 2 and the lower structure 3, and the end of the string-like body 22 swings into the insertion opening 47 provided in the fixing means 41 of the lower structure 3. It is connected freely.
[0053]
The string-like body 22 is bundled at the center by a bundling string 23 so as to be accommodated together. As a result, it is stored in a small size when stationary, and flexibly follows deformation when an earthquake occurs. The base plate 44 is fixed to the upper and lower structures by bolts 45 and nuts 46. In addition, a bellows-like protective material 81 is attached around the string-like body 22. As a result, the displacement limiting device is provided with a dustproof effect / waterproof effect / fireproof performance.
[0054]
FIG. 11 is a modification of the fixing unit, where (a) is a perspective view and (b) is a longitudinal sectional view. An insertion tool 51 protrudes from the base plate 44, and an insertion port 47 is opened in the insertion tool 51. The string-like body 22 is inserted through the insertion opening 47. Further, an end fixing tool 48 is formed by an end fixing body 62 at the end of the string-like body 22. The end fixing tool 48 is fastened to a fixing hook 49, and the tip of the fixing hook 49 is blocked by a sealing tool 50 so that the end fixing tool 48 is not detached. According to this fixing means, the string-like body 22 can be easily removed and inserted through the insertion opening 47.
[0055]
FIG. 12 shows another modification of the fixing unit. The base plate 44 is provided with an insertion tool 51 protruding in a cylindrical shape, and an insertion port 47 is opened in the insertion tool 51. The string-like body 22 is inserted through the insertion opening 47. According to this fixing means, since the insertion tool 51 is cylindrical, higher strength can be ensured.
[0056]
FIG. 13 shows another modification of the fixing unit. An insertion port 47 is opened in the base plate 44. The string-like body 22 is hung on the insertion tool 51 and inserted through the insertion port 47. The insertion member 51 is provided with a sliding member 53. According to this fixing means, since the insertion opening 47 is formed in the base plate 44, it can be manufactured at a low cost. Further, the sliding member 53 applies an equal force to the string-like body 22.
[0057]
FIG. 14 shows another modification of the fixing unit. A plurality of insertion openings 47 are opened in the connecting plate 54, and a plurality of string-like bodies 22 are inserted through the insertion openings 47. One of the insertion openings 47 is fastened to an insertion tool 51 provided on the base plate 44. The connecting plate 54 may be integrally formed by being fixed to the base plate 44 by welding or the like.
[0058]
Further, as an example of the fixing unit 41, as shown in FIG. 15, a ring 43 may be inserted into a base plate 44, and the ring 43 may be made of a high-strength fiber material. Further, the shape of the annular ring 43 is not limited to this, and those in which anchors are provided at both ends of the linear body may be embedded in the base plate 44 and fixed.
[0059]
The displacement limiting device of the present invention is not limited to the above-described embodiment, and various improvements and design changes may be made without departing from the spirit of the present invention.
For example, the base plate 44 is fixed to the structure with the bolt 45, but may be fixed by providing a screw on the base plate formed in a cylindrical shape.
In Examples 4 to 6, the fixed body is composed of the rod-shaped fixed body 61, the hood 82, and the retaining ring 83, but instead of the retaining ring 83, the rod-shaped fixed body 61 and the hood 82 are joined by welding or the like. Also good.
Moreover, a cavity may be provided in the center of the seismic isolation device in a plan view, and the displacement limiting device may be disposed inside the cavity.
Further, instead of the spring 33 in the third embodiment, a rotary spring connected to the rod-shaped fixed body 61 and the base plate 44 may be used.
Further, any spring including an elastic material such as rubber may be used. The bellows-shaped protective materials 81, 85, and 88 may have an effect equivalent to that of a spring by using a material having elasticity. The attachment positions and methods of the springs 31 to 36 may be appropriately changed within a range that satisfies the function of the separating means.
Further, the string-like body 21 may be appropriately connected to the rod-like fixed body 61 and the like with a spring material so as to be stored more reliably.
In FIG. 12, the insertion tool 51 provided so as to protrude in a cylindrical shape may be provided with a plurality of cylindrical insertion tools 51 having different radii from the center of the cylinder in plan view. Further, the end of the string-like body 22 may be inserted into an eyebolt and fixed by screwing or the like.
In addition, it is needless to say that specific detailed structures can be changed as appropriate.
[0060]
【The invention's effect】
According to the displacement limiting device of claim 1, in the base isolation structure, the lower structure side and the upper structure side are connected by the string-like body, the fixing body, and the fixing means, and the displacement between the lower structure body and the upper structure body. When the amount reaches a predetermined amount, it can be tensioned to limit the excessive displacement of the structure. In addition, since the fixed bodies have means for separating from each other during horizontal movement, it is possible to provide a displacement limiting device that can be securely stored in a narrow space around the seismic isolation device without collision. .
[0061]
According to the displacement limiting device of the second aspect, when the displacement between the lower structure and the upper structure reaches a predetermined amount, it is tensioned to limit the excessive displacement of the structure. In addition, since the fixed body has a separating means when the upper structure moves horizontally, the displacement limiting apparatus can be securely stored in a narrow space around the seismic isolation device without colliding. be able to.
[0062]
According to the displacement limiting device of the third aspect, when the displacement between the lower structure and the upper structure reaches a predetermined amount, it is tensioned to limit the excessive displacement of the structure. In addition, since the fixed bodies have means for separating from each other when the upper structure is moved horizontally, the displacement limiting device can be securely stored in a small space in a narrow space around the seismic isolation device without collision. can do.
[0063]
According to the displacement limiting device of the fourth aspect, the same effect as that of the third aspect can be obtained, and the separating means has two springs, so that the fixed body does not collide more reliably and the It is possible to provide a displacement limiting device that is small and neatly stored in a narrow space around the seismic device.
[0064]
According to the displacement limiting device of the fifth aspect, the same effect as in the first to fourth aspects can be obtained, and at least one of the fixed bodies is made of a rod, so that the separating means can be configured with a simpler member. .
[0065]
According to the displacement limiting device of the sixth aspect, the same effect as in the first to fifth aspects can be obtained, and since the hood is added, the operation of the separating means is made more reliable, and the internal string-like body The effect which protects is acquired.
[0066]
According to the displacement limiting device of the seventh aspect, the same effect as in the first to sixth aspects can be obtained, and a plurality of string-like bodies can resist deformation, so that a thinner string-like body can be used. Follow the deformation flexibly. Further, since the fixing means is provided with the insertion means, it is possible to obtain an effect that the fixing means is fixed to the upper structure and the lower structure with a smaller size.
[0067]
According to the displacement limiting device of the eighth aspect, the same effects as those of the first to seventh aspects can be obtained, and the string-like body is smoothly curved and in contact with the hollow space, so that there is little damage.
[0068]
According to the displacement limiting device of the ninth aspect, the same effects as those of the first to eighth aspects can be obtained, and a sliding member is interposed between the string-like body and the insertion means. The effect of applying uniform tension is obtained.
[0069]
According to the displacement limiting device of the tenth aspect, the same effects as in the first to ninth aspects can be obtained, and since the displacement limiting device is covered with waterproof means, the displacement limiting device has a dustproof effect and a waterproof effect. Is granted.
[0070]
According to the displacement limiting device of the eleventh aspect, the same effects as those of the first to tenth aspects can be obtained, and the bellows-shaped protective material, the hood, the packing, and the like are made of a refractory material. Fire resistance is given.
[0071]
According to the displacement limiting device of the twelfth aspect, the same effects as those of the first to eleventh aspects can be obtained, and the fixing unit is made of a high-strength fiber material. It can be made smaller and tightly connected to the structure.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view showing an example of a displacement limiting device of the present invention. Example 1
FIG. 2 is a plan sectional view of the same. Example 1
FIG. 3 is a longitudinal sectional view showing details of the displacement limiting device. Example 1
FIG. 4 is a cross-sectional plan view showing details of an apparatus for connecting fixed bodies. Example 1
FIG. 5 is a longitudinal sectional view showing another example of the displacement limiting device. (Example 2)
FIG. 6 is a longitudinal sectional view showing still another example of the displacement limiting device. (Example 3)
FIG. 7 is a longitudinal sectional view showing still another example of the displacement limiting device. Example 4
FIG. 8 is a longitudinal sectional view showing still another example of the displacement limiting device. (Example 5)
FIG. 9 is a longitudinal sectional view showing still another example of the displacement limiting device. (Example 6)
FIG. 10 is a longitudinal sectional view showing still another example of the displacement limiting device. (Example 7)
11A is an example of a fixing unit, and FIG. 11A is a perspective view, and FIG. 11B is a longitudinal sectional view.
FIGS. 12A and 12B show another example of the fixing unit. FIG. 12A is a perspective view, and FIG. 12B is a longitudinal sectional view.
FIGS. 13A and 13B are still another example of a fixing unit, in which FIG. 13A is a perspective view, and FIG. 13B is a longitudinal sectional view.
14A and 14B are still other examples of the fixing unit, in which FIG. 14A is a perspective view, and FIG. 14B is a longitudinal sectional view.
FIG. 15 is a perspective view illustrating details of still another example of the fixing unit.
[Explanation of symbols]
1 Seismic isolation support
2 Superstructure 2
3 Substructure 3
11-17 Displacement limiting device
21, 22 String
31-36 Spring
41 Fixing means
42 Stringed ring
43 Ring
44 Base plate
45 volts
47 Entrance
61 Rod-like fixed body
71 protrusion
72 pipes
73 Inner cylinder
74 Outer cylinder
81, 85, 88 Bellows-shaped protective material
82 Food
83 clasp
84 Packing
86,87 Ring-shaped member
101,102 Reverse rotation prevention stopper

Claims (6)

  When the upper structure is displaced by a predetermined amount in the seismic isolation structure that is interposed between the lower structure and the upper structure and includes a base isolation support that supports the upper structure so as to be movable in the horizontal direction. At least one string-like body that regulates the displacement of the structure by tension, one fixing means provided on one end of the string-like body via one fixed body, and the other of the string-like body The other fixing means provided through the other fixing member is provided at the end of the first fixing means, and one fixing means is swingably connected to the lower structure side, and the other fixing means is provided to the upper structure side. It is connected in a swingable manner, and has a separating means for separating one fixed body and the other fixed body at a stationary position of the upper structure, and the separating means is rotatably connected to one fixed body. The second rigid member rotatably connected to the first rigid member and the other fixing member Wood and the displacement limiting device seismic isolation structure, characterized in that it comprises an elastic member that is secured to the second rigid member while being secured to the first rigid member.   When the upper structure is displaced by a predetermined amount in the seismic isolation structure that is interposed between the lower structure and the upper structure and includes a base isolation support that supports the upper structure so as to be movable in the horizontal direction. At least one string-like body that regulates the displacement of the structure by tension, one fixing means provided on one end of the string-like body via one fixed body, and the other of the string-like body The other fixing means provided through the other fixing member is provided at the end of the first fixing means, and one fixing means is swingably connected to the lower structure side, and the other fixing means is provided to the upper structure side. It is connected so as to be able to swing, and has a separating means for separating one fixed body and the other fixed body at a stationary position of the upper structure, and the separating means is provided via a rail provided on one fixed body. Are attached to the first anchor and the other fixed body, which are mounted so as to be linearly movable. A second locking device that is attached to the first locking device through a rail so that it can freely move linearly, one end of which is rotatably connected to the first locking device, and the other end of the second locking device. A rigid member rotatably connected to the stopper, the first locking member is connected to one fixing member by a spring, and the second locking member is connected to the other fixing member by a spring; A device for limiting displacement of a seismic isolation structure, characterized by comprising:   When the upper structure is displaced by a predetermined amount in the seismic isolation structure that is interposed between the lower structure and the upper structure and includes a base isolation support that supports the upper structure so as to be movable in the horizontal direction. At least one string-like body that regulates the displacement of the structure by tension, one fixing means provided on one end of the string-like body via one fixed body, and the other of the string-like body The other fixing means provided through the other fixing member is provided at the end of the first fixing means, and one fixing means is swingably connected to the lower structure side, and the other fixing means is provided to the upper structure side. It is connected in a swingable manner, and has a separating means for separating one fixed body and the other fixed body at a stationary position of the upper structure, and the separating means has a spring member, and this spring member Is interposed between one fixed body and the lower structure, or the other fixed body. Displacement limiting device seismic isolation structure, characterized in that it is interposed between the body and the upper structure.   When the upper structure is displaced by a predetermined amount in the seismic isolation structure that is interposed between the lower structure and the upper structure and includes a base isolation support that supports the upper structure so as to be movable in the horizontal direction. At least one string-like body that regulates the displacement of the structure by tension, one fixing means provided on one end of the string-like body via one fixed body, and the other of the string-like body The other fixing means provided through the other fixing member is provided at the end of the first fixing means, and one fixing means is swingably connected to the lower structure side, and the other fixing means is provided to the upper structure side. It is connected in a swingable manner, and has a separating means for separating one fixed body and the other fixed body at a stationary position of the upper structure, and the separating means has two spring members, One spring member is interposed between one fixed body and the lower structure, and the other The spring member is displaced limiting device seismic isolation structure, characterized in that it is interposed between the other fixed member and the upper structure.   The displacement limiting device for a seismic isolation structure according to any one of claims 1 to 4, wherein at least one fixed body is made of a rod.   The displacement limiting device for a seismic isolation structure according to any one of claims 1 to 5, wherein at least one fixed body includes a rod and a hood.

Images