KR102186014B1 - Base Isolation Function Unit with groove in center of roll - Google Patents

Abstract

In the ball-type seismic isolator, it is one of the most important matters to restore the ball to its origin after an earthquake, but it is very difficult to implement. Most of the time, the central part of the rolling surface is sharpened to ensure that the ball returns to its origin accurately. However, if the central portion of the rolling surface is sharpened, the surface of the ball hits the central side of the rolling surface at the moment when the ball passes through the center, causing bumps to occur, which significantly impairs seismic isolation performance. In addition, the center of the rolling part is the part to which the load and impact is applied more than the surrounding rolling surface, and the characteristic should be better than that of other rolling surfaces, but it was not.
In the present invention, a fixing mechanism having a groove on the top surface is provided in the center of the rolling part, so that the ball is accurately positioned after the seismic isolation operation without impairing the seismic isolation performance at an economical cost, and the effect of reinforcing the characteristics of the center of the rolling surface is secured .

Description

Base Isolation Function Unit with groove in center of roll}

The present invention relates to a seismic isolating function unit in which a fixing mechanism having a groove on the top surface is coupled to the center of the rolling unit, and more preferably, a ball inserted into the inner rolling unit of the upper plate and the lower plate moves horizontally when horizontal shaking of the ground or earthquake occurs. (Rolling) In the ball-type seismic isolation function, the ball is normally positioned exactly at the center point of the rolling part, and in the event of an earthquake, the top surface is fixed with a groove to ensure that the ball rolls in the rolling part and returns to the center point of the rolling part. It is a seismic isolation function unit in which the mechanism is coupled to the center of the rolling unit.

In general, in a seismic isolator, it is one of the most important matters to accurately restore the ball to the origin of the rolling part (return to its original position) after an earthquake. So, in order to ensure that the ball returns to the origin of the rolling part accurately, the central part of the rolling part is sharpened, or a separate device is used outside the rolling part to return the ball to the center of the rolling part.

However, if the central portion of the rolling portion is sharpened, the surface of the ball hits the central side of the rolling portion at the moment the ball passes through the center, causing a bump and impairing the seismic isolation performance.

In addition, the method of restoring by installing a separate device outside the rolling unit increases the cost of installing the device.

In addition, the "seismic isolation device in which the material of the center and the periphery of the rolling part is formed differently" of Patent No. 10-1465335 published by the applicant of the present disclosure has been disclosed that a core material is inserted in the center, but the above technology has characteristics for concentrated load. It was intended to reinforce the characteristics of rolling and to alleviate a significant part of the vertical impact, and the restoration to the original state was not very good.

In addition, the "seismic isolator" of Korean Patent No. 10-1528555 is interposed between the first and second tables to support the first and second tables and the first and second guide grooves by installing the rolling part up and down. It is a technology that includes at least one double seismic isolating unit capable of gradually absorbing the vibration of the table in double and maintaining the second table in a stable state.When an earthquake occurs, the ball moves horizontally along the rolling surface of the rolling part of the seismic isolator. After that, there is no technology to accurately induce the return to the original state.

In addition, even looking at the contents of other registered patent technologies, there was no technology that induces the ball to accurately return to its original state along the rolling surface of the rolling part when support occurs.

As described above, the central part of the rolling surface of the rolling part of the seismic isolator is a part to which load and impact is applied more than other rolling surfaces, and should have better characteristics than other rolling surfaces, but it was not. This is the reason why the invention is necessary to ensure that the ball is correctly positioned after the seismic isolation operation without impairing the seismic isolation performance at an economical cost and reinforce the characteristics of the center of the rolling surface.

Korean Patent Registration No. 10-1465335 Korean Patent Registration No. 10-1528555

The present invention was conceived to solve the above-described problem,

In the event of an earthquake, the ball is positioned exactly in the center of the rolling part after the seismic isolating operation at an economical cost without impairing the seismic isolating performance of the ball driven inside the top and bottom of the seismic isolator, and the characteristics of the center of the rolling surface are to be strengthened It is aimed at.

Accordingly, an object of the present invention is to provide a seismic isolating function unit in which a fixing mechanism having a groove on the top surface is coupled to the center of a rolling unit of a seismic isolating device.

In addition, it is an object to make the upper surface of the fixture in an arc shape in order to return to the center of the fixture.

In order to achieve the object of the present invention,

According to one aspect of the present invention,

As shown in FIG. 3, a bolt-type fixing device 20 is located at the center of the rolling surface 12 of the rolling part 11, and a groove 30 is formed on the uppermost surface 21 of the fixing device 20. To be provided, it is characterized in that the rolling surface 12 and the top surface 21 of the fixture 20 are able to accurately find the center of the ball even in the shape of an arc whose center is not sharp, thereby solving this problem.

The present invention having the above characteristics allows the ball to accurately return to the center of the rolling part by gravity even if there is no separate ball origin return device, but the ball returns to the correct position even if the center of the rolling surface of the rolling part is not sharp. , When performing the seismic isolation function due to the occurrence of an earthquake, there is an effect that the ball does not rattle when it passes the center of the rolling surface of the rolling part, so that the seismic isolation performance is not impaired.

In addition, the present invention has an effect of enhancing the seismic isolation characteristics by reinforcing the characteristics of the central portion of the rolling surface that receives a lot of load and impact through heat treatment or a special coating treatment on the top surface of the fixture.

1 is a perspective view showing the principle of operation of the most common ball-type seismic isolation function unit (just a picture showing the principle).
2 is a perspective view showing an embodiment of the configuration of the most common ball-type seismic isolation function unit. (Rolling unit is one or has a support)
3 is a perspective view showing an embodiment of the ball-type seismic isolating function unit according to the present invention. (No coating, thread, integrated rolling unit, rolling unit + support)
Figure 4 is a perspective view showing another embodiment of the seismic isolation function according to the present invention (coating, thread, rolling part integral type, rolling part + support).
5 is a perspective view showing an embodiment showing various types of fixtures according to the present invention.
Figure 5a is a cross-sectional view showing the shape of the head of the fixture according to the present invention protruding from the shape of the head larger than the body.
Figure 5b is the shape of the body and the head of the same thickness below and above the fixture according to the present invention, the head is a hexagonal shape / the head is a cross shape / the head is an octagonal shape / the head is a cross and a circle in the center Grooved form
Figure 5c is a side view showing an embodiment in which an elastic material is provided on the fixture according to the present invention.
5D is a cross-sectional view showing a state in which a fixing mechanism and an elastic material are combined on a rolling surface according to the present invention.
Figure 5e is a side view showing an embodiment provided with a special coating on the top surface of the fixture according to the present invention.
Figure 5f is a cross-sectional view showing a combined state with a fixing mechanism having a special coating formed on the rolling surface according to the present invention.
6 is a perspective view showing an embodiment showing the configuration of a seismic isolating device utilizing the invented seismic isolating function unit. (Seismic isolation double floor support type (Fig. 6), seismic isolation table type ===> without support, with support ( Figure 6a), the form of the seismic isolation function of the bridge (Figure 6b), the form of the seismic isolation function of the building (Figure 6c))

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art may easily implement the present invention. However, the present invention may be implemented in various different forms and is not limited to the embodiments described herein.

In addition, the seismic isolator described in the present invention is installed in a computer room, a communication room, various machine rooms, electrical rooms, various exhibition spaces, various article storage places, buildings, bridges, and the like.

1 shows the most common operation form of the ball type among the various ball type seismic isolating functional units 10 inserted into the upper and lower plates of the seismic isolating device described in the present invention and horizontally moving in the rolling unit 11. A seismic isolation function is performed by minimizing the shaking in the direction of the upper plate by rolling of the ball 70 and the motion of the upper plate and the lower plate oriented in different directions.

2 also shows an example of the configuration of the most common seismic isolating function unit 10 among various ball type seismic isolating function units 10. The ball 70 may be configured as an integral type in which the rolling part 11 on which the ball 70 moves horizontally is formed as one to the lower part of the rolling surface, or it may be composed of the rolling surface 12 and the rolling part support 13.

3 is an example of the seismic isolation function unit 10 according to the present invention, formed in the lower portion of the rolling surface 12 of the rolling unit 11 or the central portion of the rolling unit support (collectively referred to as the rolling unit support 13) 13 A female thread is formed in the groove (12a), and a male thread (23) is formed in the fixing mechanism (20), so that it is firmly coupled to each other by screwing.

At this time, the uppermost surface 21 of the fixture 20 is configured to be less than the height of the rolling surface 12, and the uppermost surface 21 of the fixture 20 is provided with a groove 30 as shown in FIG. . The top surface 21 of the fixture 20 is manufactured to form a flat or smooth arc shape.

In addition, although the thickness of the body 22 and the top surface 21 of the fixing mechanism 20 may be the same, the thickness of the body 22 and the top surface 21 may be different.

In addition, the center of the rolling surface 12 of the rolling part 11 must withstand the highest load during normal and seismic isolating functions, and must withstand the greatest impact, so that the fixing fixture 20 is made through a manufacturing method such as heat treatment. It is better if the properties are strengthened than the rolling surface 12 other than the fixing device 20.

4 is different from FIG. 3 in that a special coating 12b is added to the rolling surface 12 in a state in which the fixing device 20 is mounted at the center of the rolling surface 12, and the fixing device 20 The uppermost surface 21 should be configured to be less than or equal to the height of the specially coated (12b) surface.

5 shows various forms of the fixing mechanism 20 according to the present invention. This will be described in more detail as follows.

5 is an example of the thickness of the fixture 20 according to the present invention, the body 22 is a configuration smaller than the top surface 21, which can be changed according to the manufacturing situation.

5A is an example of the shape of the groove 30 of the uppermost surface 21 of the fixture 20 according to the present invention. The hexagonal shape 31 or the cross shape 32 or the periphery of the cross shape can be configured in various shapes, such as a circle 32 at the center. However, there must be a groove 30 in the center so that the ball 70 can be stabilized and positioned in the center, and the fixing mechanism 20 must be in a shape that is easy to couple to the rolling surface 12 of the rolling part 11. do.

Figure 5b is an example of the thickness of the fixture 20 according to the present invention, the thickness of the body 22 and the top surface 21 are the same configuration, which may be different depending on the manufacturing situation.

5C and 5D show that the fixing device 20 according to the present invention is deeply embedded in the rolling surface 12 of the rolling part 11, and the height difference between the rolling surface 12 and the top surface 21 of the fixing device 20 Is constituted by inserting the elastic material (80). The height of the elastic material 80 may be equal to or slightly lower than the height of the rolling surface 12.

5E and 5F are examples in which a special material such as carbon fiber, alimide fiber, tungsten fiber, or the like is coated 24 on the uppermost surface 21 of the fixture 20 according to the present invention to enhance characteristics. Since the center of the rolling surface 12 of the rolling part 11 needs to withstand the highest load and withstand the greatest impact than the peripheral part, it is good to apply a property-reinforced coating 24 for reinforcing wear characteristics.

6 is an example of configuring a seismic isolating device and a seismic isolating drive unit 60 using the seismic isolating function unit 10 according to the present invention. The seismic isolation driving unit 60 can be manufactured and used in various forms, and as shown in FIG. 6, a seismic isolation table is installed under the protection object 50 in the form of a case and a box, or a seismic isolation table is installed under a cultural property. As shown in 6a, the object 50 to be protected can be used for a seismic isolation double floor, or a seismic isolator according to the present invention can be used for a bridge or a building as shown in FIG. 6C as shown in FIG. 6B.

Although the technical idea of the present invention has been described above together with the accompanying drawings, this is illustrative of a preferred embodiment of the present invention and does not limit the present invention. In addition, it is a clear fact that anyone of ordinary skill in the art can perform various modifications and imitations without departing from the scope of the technical idea of the present invention.

10: seismic isolation function part 11: rolling part
12: rolling surface 12a. Groove
13: rolling part support 20: fixture
21: top side 22: torso
23: male thread 24: coating
30: groove 31: hexagonal shape
32: cross shape 33: circle + cross shape
50: Objects to be protected (case, box type, production facility, cultural property, bridge, building, etc.)
60: base isolation driving unit 70. Ball
80. Elastic material

Claims (6)

In the seismic isolation function unit 10 provided with the rolling surface 12 of the rolling unit 11 on which the ball 70 rolls, the number is formed in the groove 12a in which the female thread is formed in the lower central portion of the rolling surface 12. The fixing mechanism 20 on which the screw thread 23 is formed is formed by screwing together, and the height of the top surface 21 of the fixing mechanism 20 is formed to be located below the height of the rolling surface 12, and the fixing mechanism ( 20) provided with a groove (30) on the top surface (21),
A portion having a difference between the height of the rolling surface 12 and the top surface 21 of the fixture 20 is blocked with an elastic material 80 to form the rolling surface 12. A seismic isolating function unit in which a fixture is combined in the center of the rolling unit The method of claim 1,
A groove 30 is provided in the center of the top surface 21 of the fixture 20 so that the ball 70 is normally located, and when an earthquake occurs, the ball 70 rolls along the rolling surface 12 of the rolling part, A seismic isolating function unit in which a fixing mechanism having a groove on the top surface is coupled to the center of the rolling unit, characterized in that it is positioned exactly in the groove 30. The method according to claim 1 or 2,
A fixing device having a groove on the top surface, characterized in that the rolling surface 12 is coated with a special coating 12b, and the position of the top surface 21 of the fixing device 20 is configured to be less than the height of the surface of the special coating 12b A seismic isolation function unit coupled to the center of this rolling unit. delete The method according to claim 1 or 2,
The fixing mechanism 20 is processed to withstand a load and impact higher than the rolling surface 12, or a material that is stronger than the material of the rolling surface 12 is used. A seismic isolation function unit combined in the center. The method according to claim 1 or 2,
A seismic isolation function unit in which a fixing mechanism having a groove on the top surface is coupled to the center of the rolling unit, characterized in that the top surface 21 of the fixing unit 20 is configured to have an arc.

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