JP2016211746A - Seismic isolator and stonework - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a novel product that has flexibility and stretchability, and is, for example, "a small rod-like member having a flexible characteristic" suitable for base isolation support in a seismic isolator.SOLUTION: A small rod-like member having a flexible characteristic is formed by fitting material having flexibility and stretchability into a coil spring 1 having flexibility and stretchability.SELECTED DRAWING: Figure 3

Description

  The present invention usually exhibits a vertical shape, but has flexibility such as bending when a lateral force is applied, and deformability such that it expands and contracts when a vertical force is applied, For example, the present invention relates to a “small bar-like member having flexible characteristics” that is optimal for seismic isolation support in seismic isolation devices.

  Conventionally, for example, in a mechanism for seismic isolation against earthquake vibration, a supporting member (small bar-shaped member) that exhibits a columnar shape as a member for absorbing rolling or the like is usually a rubber column such as laminated rubber. (For example, see Patent Document 1).

JP 2006-292155 A

  In the case of the rubber column as described above, it is very difficult to adjust its flexibility and stretchability, and it is almost left to the characteristics of the rubber material. Therefore, for example, when a rubber column having a large strength is used, there is a problem that the flexibility is too strong and the seismic isolation action is caused.

Further, when the rubber material is exposed to the outside air, the surface is likely to be deteriorated, which causes a large loss of elasticity.
The present invention is intended to provide a new product called a “small bar-like member having flexible characteristics” which is intended to eliminate the conventional problems.

  According to the present invention, as described in claim 1, a small rod-like shape having a flexible characteristic formed by inserting and loading a material having flexibility and stretchability into a coil spring 1 having flexibility and stretchability. Related to the member.

  According to a second aspect of the present invention, there is provided a small rod-like member having flexible characteristics according to the first aspect, in which a single rubber shaft 2 is used as a material to be fitted into and loaded into the coil spring 1. And

According to a third aspect of the present invention, there is provided a small rod-like member having flexible characteristics according to the first aspect of the present invention, wherein the rubber shaft is a single unit 3 bundled as a material to be fitted into and loaded into the coil spring 1. It is set as this aspect.

  According to a fourth aspect of the present invention, there is provided a small rod-like member having flexible characteristics according to the first aspect, which is formed as a bag body 5 for accommodating a rubber chip 4 as a material to be fitted into and loaded into the coil spring 1. Let it be an aspect.

  According to a fifth aspect of the present invention, there is provided a small rod-like member having flexible characteristics according to the first aspect, which is formed as a bag body 7 containing a required liquid 6 as a material to be fitted into and loaded into the coil spring 1. Let it be an embodiment.

  As described in claim 6, the present invention implements a small rod-like member having flexible characteristics according to claim 4 or 5, wherein the coil spring 1 itself is also accommodated in the bag body. It is set as this aspect.

  The flexible characteristic according to any one of claims 1 to 6, wherein the present invention is configured such that flange portions are provided at both upper and lower ends of a member fitted and accommodated in the coil spring 1 as described in claim 7. A small rod-shaped member having the above-described embodiment is an embodiment.

  The present invention is configured as described in claim 1, that is, a material having flexibility and stretchability is inserted into and loaded into the coil spring 1 having flexibility and stretchability. Based on the selection of the coil spring 1 to be used and the selection of the material fitted and loaded in the interior, it is possible to arbitrarily set the flexibility and stretchability as a whole. That is, if only one of them is used, the overall size is determined in order to obtain flexibility and stretchability having the required strength. On the other hand, according to the present invention, for example, the required size is based on the selection of the coil spring 1 having strong elasticity and the selection of the “internal insertion and loading material” having elasticity to the extent desired. It is possible to obtain the necessary flexibility and stretchability while ensuring the strength.

  Since the present invention is configured to use one rubber shaft 2 as a material to be fitted into and loaded into the coil spring 1 according to the second aspect of the present invention, the configuration can be simplified.

  The present invention is configured as described in claim 3, that is, as a material to be fitted into and loaded into the coil spring 1, the rubber shaft single body 3 in which a plurality of the rubber shafts are bundled together. By appropriately setting the thickness and number, fine adjustment settings for flexibility and stretchability are made possible.

According to the present invention, the manufacturing cost can be reduced because the bag body 5 for accommodating the rubber chip 4 is used as the material to be fitted and loaded into the coil spring 1. Since the flexibility and stretchability can be adjusted depending on the amount of the rubber chip 4, it is very easy to ensure the optimum performance.

The present invention has a configuration as described in claim 5, that is, a bag body 7 that accommodates a required liquid 6 as a material to be fitted and loaded into the coil spring 1. The dressing work is greatly facilitated. In addition, depending on the liquid used (for example, water), the production strike can be significantly reduced.

According to the present invention, since the coil spring 1 itself is also housed in the bag body, the protection object for the coil spring 1 is achieved at the same time.

According to the present invention, the configuration as described in claim 7, that is, the configuration in which the flange portions are provided at the upper and lower ends of the member to be fitted and accommodated in the coil spring 1, facilitates the installation.

It is a front view showing the 1st example of the present invention. It is a top view same as the above. It is a longitudinal cross-sectional view same as the above. It is a top view showing the 2nd example of the present invention. FIG. 5 is a sectional view taken along line XX in FIG. 4. It is a top view showing the 3rd example of the present invention. It is the YY sectional view taken on the line in FIG. It is a top view showing the 4th example of the present invention. FIG. 5 is a sectional view taken along line ZZ in FIG. 4. It is a top view showing the 5th example of the present invention. It is a partially cutaway front view same as the above. It is a front view for explanation showing an example of use of the present invention.

  1 to 3 show a first embodiment as a basic form of the present invention. In the figure, reference numeral 1 denotes a coil spring, which has the required flexibility (warping and its restoration). In the illustrated embodiment, each pitch is in a closed state, that is, in a form that extends in the stretching direction, but it is preferable to use a pitch that can be compressed and expanded.

  Reference numeral 2 denotes a single rubber shaft, which has the required flexibility and stretchability. The rubber shaft 2 is fitted and loaded in the coil spring 1 described above, so that it exhibits flexibility and stretchability in cooperation with the coil spring 1, that is, deformation and restoration from a linear state. It is configured to be played.

  FIGS. 4 and 5 show a second embodiment of the present invention, which replaces one rubber shaft 2 used in the first embodiment with several rubber shafts 3 alone. In a state where the two are bundled, the coil spring 1 is fitted and loaded.

  6 and 7 show a third embodiment of the present invention, in which a large number of rubber chips 4 packed in a bag are fitted and loaded into the coil spring 1. In the figure, the bag body 5 that accommodates the rubber chip 4 is configured to be positioned in the coil spring 1, but this is configured to accommodate the coil spring 1 and the rubber chip 4 together, It is also possible to carry out the invention in such a form that the whole is wrapped by the bag body 5.

  FIGS. 8 and 9 show a fourth embodiment of the present invention, in which water, oil, or other appropriate liquid 6 packed in a bag is inserted into the coil spring 1 and loaded. Is. In addition, in the same figure, although the bag body 7 which accommodates the liquid 6 is comprised so that it may be located in the coil spring 1, this is the structure which accommodates the coil spring 4 and the liquid 6 collectively, ie, Further, it can be carried out in such a form that the whole is wrapped in the bag body 7.

  10 and 11 show a fifth embodiment of the present invention, in which two rubber shafts 8 having flange portions 8a at their ends are fitted and received from both upper and lower ends of the coil spring 1. FIG. It is constructed like this. An important point in the embodiment is that the flange portions are provided at both upper and lower ends of the member fitted and accommodated in the coil spring 1. Therefore, even in the above-described second to fourth embodiments, there is a case where such a flange portion is integrally formed and implemented.

  FIG. 12 shows a case where the present invention is used for seismic isolation of a stone lantern. In the figure, A is a stone lantern, and is a column M for supporting the headstone f in a swinging manner on the top of each stone member of the foundation a, the tail b, the middle platform c, and the firebag e. The small rod-shaped member according to the invention is used.

  Based on this, when an earthquake occurs, Kaseki f swings in the direction opposite to that of the earthquake as shown by the arrow in the figure based on the reaction of the stone lantern in the direction of the arrow. Is designed to prevent seismic vibrations and prevent the stone lanterns from falling down.

  The “small bar-shaped member having flexible characteristics” according to the present invention is used as a small bar-shaped member for any structure that requires flexibility other than the above-described seismic isolation member. It can be used as a working member.

DESCRIPTION OF SYMBOLS 1 Coil spring 2 Rubber shaft 3 Rubber shaft single-piece 4 Rubber tip 5 Bag body 6 Liquid 7 Bag body 8 Rubber shaft
8a Flange

The present invention relates to a seismic isolation device having a supporting member and a stone structure. The supporting member usually has a vertical shape, but is flexible so as to bend when a lateral force is applied, and deformable so as to expand and contract when a vertical force is applied. For example, it is possible to use a “small bar-like member having flexible characteristics” that is optimal for seismic isolation support in a seismic isolation device .

  Conventionally, for example, in a mechanism for seismic isolation against earthquake vibration, for example, a supporting member (small bar-like member) that has a columnar shape as a member for absorbing rolls is usually a rubber column such as laminated rubber. (For example, see Patent Document 1).

JP 2006-292155 A

  In the case of the rubber column as described above, it is very difficult to adjust its flexibility and stretchability, and it is almost left to the characteristics of the rubber material. Therefore, for example, when a rubber column having a large strength is used, there is a problem that the flexibility is too strong and the seismic isolation action is caused.

Further, when the rubber material is exposed to the outside air, the surface is likely to be deteriorated, which causes a large loss of elasticity.
The present invention is intended to provide a new product called a “small bar-like member having flexible characteristics” which is intended to eliminate the conventional problems.

The present invention provides a seismic isolation device for seismic vibration having a support member in which a material having flexibility and stretchability is inserted and loaded inside a coil spring having flexibility and stretchability. A seismic isolation device characterized in that a member arranged on a member for support is supported by the supporting member, and a flexible and stretchable coil spring having flexibility and stretchability. The present invention relates to a stone structure in which a stone is arranged on a support member into which the prepared material is inserted and loaded. The supporting member can be in the form of a small bar-like member having flexible properties.
The following is the invention described at the beginning of the application of this application.
The present invention relates to a small rod-like member (Configuration Example 1) having a flexible characteristic formed by inserting and loading a material having flexibility and stretchability into a coil spring 1 having flexibility and stretchability. .

In the configuration example 2 , the small rod-like member having the flexible characteristics described in the configuration example 1 using the single rubber shaft 2 as a material to be fitted and loaded into the coil spring 1 is used as an embodiment.

In the configuration example 3 , as a material to be fitted into and loaded into the coil spring 1, the small rod-like member having the flexible characteristics described in the configuration example 1 configured as a single rubber shaft 3 in which a plurality are bundled is used.

In the configuration example 4 , the small rod-like member having the flexible characteristics described in the configuration example 1 configured as the bag body 5 that accommodates the rubber chip 4 is used as a material to be fitted and loaded into the coil spring 1.

In the configuration example 5 , the small rod-like member having the flexible characteristics described in the configuration example 1 configured as the bag body 7 containing the required liquid 6 is used as a material to be fitted and loaded into the coil spring 1.

In the configuration example 6 , the small bar-like member having the flexible characteristics described in either the configuration example 4 or the configuration example 5 configured to accommodate the coil spring 1 itself in the bag body is used as an embodiment.

Configuration example 7, in carrying out the small bar-like member having a flexible characteristic according to any one of Structural Examples 1 to 6 was configured to provide a flange portion on the upper and lower ends of the members to be fitted accommodated in the coil spring 1 Let it be an aspect.

The present invention has a configuration as described in Configuration Example 1, that is, a configuration in which a material having flexibility and stretchability is inserted into and loaded into the coil spring 1 having flexibility and stretchability. Based on the selection of the coil spring 1 to be used and the selection of the material fitted and loaded in the interior, it is possible to arbitrarily set the flexibility and stretchability as a whole. That is, if only one of them is used, the overall size is determined in order to obtain flexibility and stretchability having the required strength. On the other hand, according to the present invention, for example, the required size is based on the selection of the coil spring 1 having strong elasticity and the selection of the “internal insertion and loading material” having elasticity to the extent desired. It is possible to obtain the necessary flexibility and stretchability while ensuring the strength.

Since the present invention is configured as described in the configuration example 2, that is, the rubber shaft 2 is used as a material to be fitted into and loaded into the coil spring 1, the configuration can be simplified.

The present invention is configured as described in Configuration Example 3, that is, as a material to be fitted into and loaded into the coil spring 1 so as to be a single rubber shaft 3 bundled together. By appropriately setting the thickness and number, fine adjustment settings for flexibility and stretchability are made possible.

The present invention has a configuration as described in Configuration Example 4, that is, a bag body 5 that accommodates the rubber chip 4 as a material that is fitted into and loaded into the coil spring 1, thereby reducing manufacturing costs. Since the flexibility and stretchability can be adjusted depending on the amount of the rubber chip 4, it is very easy to ensure the optimum performance.

The present invention has a configuration as described in the configuration example 5, that is, the bag body 7 that accommodates the required liquid 6 as a material to be fitted and loaded into the coil spring 1, so that the fitting fit into the coil spring 1 is achieved. The dressing work is greatly facilitated. In addition, depending on the liquid used (for example, water), the production strike can be significantly reduced.

According to the present invention, the configuration as described in the configuration example 6, that is, the configuration in which the coil spring 1 itself is also housed in the bag body, the protection purpose for the coil spring 1 is achieved at the same time.

The present invention has a configuration as described in the configuration example 7, that is, the configuration in which the flange portions are provided at the upper and lower ends of the member to be fitted and accommodated in the coil spring 1, and the convenience in mounting is achieved.

It is a front view showing the 1st example of the present invention. It is a top view same as the above. It is a longitudinal cross-sectional view same as the above. It is a top view showing the 2nd example of the present invention. FIG. 5 is a sectional view taken along line XX in FIG. 4. It is a top view showing the 3rd example of the present invention. It is the YY sectional view taken on the line in FIG. It is a top view showing the 4th example of the present invention. FIG. 5 is a sectional view taken along line ZZ in FIG. 4. It is a top view showing the 5th example of the present invention. It is a partially cutaway front view same as the above. It is a front view for explanation showing an example of use of the present invention.

  1 to 3 show a first embodiment as a basic form of the present invention. In the figure, reference numeral 1 denotes a coil spring, which has the required flexibility (warping and its restoration). In the illustrated embodiment, each pitch is in a closed state, that is, in a form that extends in the stretching direction, but it is preferable to use a pitch that can be compressed and expanded.

  Reference numeral 2 denotes a single rubber shaft, which has the required flexibility and stretchability. The rubber shaft 2 is fitted and loaded in the coil spring 1 described above, so that it exhibits flexibility and stretchability in cooperation with the coil spring 1, that is, deformation and restoration from a linear state. It is configured to be played.

  FIGS. 4 and 5 show a second embodiment of the present invention, which replaces one rubber shaft 2 used in the first embodiment with several rubber shafts 3 alone. In a state where the two are bundled, the coil spring 1 is fitted and loaded.

  6 and 7 show a third embodiment of the present invention, in which a large number of rubber chips 4 packed in a bag are fitted and loaded into the coil spring 1. In the figure, the bag body 5 that accommodates the rubber chip 4 is configured to be positioned in the coil spring 1, but this is configured to accommodate the coil spring 1 and the rubber chip 4 together, It is also possible to carry out the invention in such a form that the whole is wrapped by the bag body 5.

  FIGS. 8 and 9 show a fourth embodiment of the present invention, in which water, oil, or other appropriate liquid 6 packed in a bag is inserted into the coil spring 1 and loaded. Is. In addition, in the same figure, although the bag body 7 which accommodates the liquid 6 is comprised so that it may be located in the coil spring 1, this is the structure which accommodates the coil spring 4 and the liquid 6 collectively, ie, Further, it can be carried out in such a form that the whole is wrapped in the bag body 7.

  10 and 11 show a fifth embodiment of the present invention, in which two rubber shafts 8 having flange portions 8a at their ends are fitted and received from both upper and lower ends of the coil spring 1. FIG. It is constructed like this. An important point in the embodiment is that the flange portions are provided at both upper and lower ends of the member fitted and accommodated in the coil spring 1. Therefore, even in the above-described second to fourth embodiments, there is a case where such a flange portion is integrally formed and implemented.

  FIG. 12 shows a case where the present invention is used for seismic isolation of a stone lantern. In the figure, A is a stone lantern, and is a column M for supporting the headstone f in a swinging manner on the top of each stone member of the foundation a, the tail b, the middle platform c, and the firebag e. The small rod-shaped member according to the invention is used.

  Based on this, when an earthquake occurs, Kaseki f swings in the direction opposite to that of the earthquake as shown by the arrow in the figure based on the reaction of the stone lantern in the direction of the arrow. Is designed to prevent seismic vibrations and prevent the stone lanterns from falling down.

  The “small bar-shaped member having flexible characteristics” according to the present invention is used as a small bar-shaped member for any structure that requires flexibility other than the above-described seismic isolation member. It can be used as a working member.

DESCRIPTION OF SYMBOLS 1 Coil spring 2 Rubber shaft 3 Rubber shaft simple substance 4 Rubber tip 5 Bag body 6 Liquid 7 Bag body 8 Rubber shaft 8a Flange part

Claims (7)

  A small rod-like member having a flexible property formed by inserting and loading a material having flexibility and stretchability into a coil spring (1) having flexibility and stretchability.   The small rod-like member having flexible characteristics according to claim 1, wherein one rubber shaft (2) is used as a material to be fitted and loaded into the coil spring (1).   2. A small rod-like member having flexible characteristics according to claim 1, comprising a rubber shaft as a single piece (3) in which a plurality of pieces are bundled as a material to be fitted and loaded into the coil spring (1).   The small rod-shaped member having flexible characteristics according to claim 1, wherein the material is a bag body (5) for accommodating a rubber chip (4) as a material to be fitted and loaded into the coil spring (1).   2. A small rod-like member having flexible characteristics according to claim 1, comprising a bag (7) containing a required liquid (6) as a material to be fitted and loaded into the coil spring (1).   6. A small rod-like member having flexible characteristics according to claim 4, wherein the coil spring (1) itself is also accommodated in the bag.   The small rod-like member having flexible characteristics according to any one of claims 1 to 6, wherein flange portions are provided at both upper and lower ends of a member fitted and accommodated in the coil spring (1).