KR20160045514A - Having a threaded retainer base isolation system - Google Patents

Abstract

The present invention relates to a fixing device to settle the issue that seismic isolation equipment cannot be applied to a device (131) having a wave guide pipe or equipment to be protected (130), which is sensitive to minute vibration, due to the flowing characteristics of a top plate (101) and bottom plate (102) of the seismic isolation equipment. According to the present invention, a threaded retainer (110) is made of materials which are sheared or crushed at a certain strength (earthquake strength) or higher; the top plate and bottom plate (101, 102) of the seismic isolation device are firmly adjoined; the top plate (101) and the bottom plate (102) have no flow in between themselves in the seismic isolation device due to a force such as a mistaken push by a worker or the like; and when the strength of an earthquake (level of 4.0 of earthquake scale) is given, the retainer (110) is sheared or crushed for the top plate (101) and the bottom plate (102) of the seismic isolation device to perform a normal seismic isolation function.

Description

[0001] Having a threaded retainer base isolation system [0002]

In order to overcome the disadvantage that it can not be installed in the protective equipment affected by the operation of the equipment due to the force of the unconscious pushing force of the human being in all the seismic equipments having the principle that the upper and lower plates are driven in the opposite direction, In particular, when an earthquake occurs while fixing the upper plate and the lower plate of the seismic isolation device, the seismic isolation device is sheared so that the upper plate and the lower plate of the seismic isolation device can move in the opposite direction To a seismic isolation device equipped with a threaded fastening device that performs a normal seismic function.

Generally, the fixing device applied to the invented isolation device has a disadvantage that a slight clearance abnormality occurs, or a seismic isolation function is hindered in case of an earthquake. For this reason, it has been practically impossible to use the production facility of a factory, which has a problem of minute vibration or shaking, and a communication device having a waveguide for transmitting and receiving antenna signals.

These facilities are expensive and most of imported equipments are large, so they have a large property damage and a long recovery time, which causes a great loss.

The seismic equipments having some fixing devices which have been invented so far have been applied to a small gap due to slight clearance when the fixing device is coupled, but they have not been applied until now.

In the case of Korean Patent No. 10-1284885, a fixing device is inserted into a hole in the case of the Korean Patent No. 10-1427240. There is no choice but to play.

1. Korean Patent No. 10-1427240 2. Korean Patent No. 10-1284885

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a seismic isolation device for a normal earthquake- An object of the present invention is to provide a seismic isolation device in which an anchorage device is sheared or fractured to normally perform an isolation function.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

According to one aspect of the present invention, a tab 105 corresponding to a female thread is installed on a part of the upper plate 101 and the lower plate 102 to form a fixing device 110 having a thread, The apparatus 110 is formed of a material that is sheared or crushed but is formed in a screw shape so that the upper plate 101 and the lower plate 102 are fixed.

The present invention having such characteristics as described above can be applied to an object to be protected that can be perfectly protected from an earthquake in a protected object which is affected by a minute vibration, So that the device can be applied.

In addition, by applying the fixing device of the present invention, it is possible to securely fix the upper plate and the lower plate of the seismic isolation device firmly without clearance so that the seismic isolation device does not flow at all to the force of the operator's unconscious pushing. The fixing device is effected to perform the seismic function by being sheared or broken.

1a. b is a perspective view showing an example of a seismic isolation device having a fixing device with a thread according to the present invention and a general seismic isolation device.
2 is a perspective view showing an embodiment of a fastening apparatus having a thread according to the present invention.
3 is a perspective view showing an embodiment of a driving direction of a general isolating device.
4 is a perspective view showing a development example that may be caused by a pushing of an operator when an anti-vibration device is applied to a protected object having a waveguide.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the present invention, the seismic equipments that transmit the lower shock to the upper part are considerably mitigated and the standard of the object to be protected is limited to the enclosure and the equipments excluding the building structure.

As shown in FIG. 3, these known seismic devices appear to move in different directions in the direction of motion of the lower plate 102 and the upper plate 101 forming the surface-ground driving portion 120.

Therefore, when the worker unconsciously and lightly pushes the object to be protected on the upper surface of the upper plate 101, the object to be protected flows, causing the object 130, which is sensitive to the minute vibration, to stop operating, .

1A, 1B, and 2 are perspective views showing a state in which a hole is formed in the upper plate 101 and the lower plate 102 of the vibration isolator 100 by providing a screw thread on the outer peripheral surface of a fixing device 110 which is sheared or broken by a constant force. hole 104 and a tab 105 having an arcuate surface formed in a hole 104 so that the fixing device 110 can firmly bind the upper plate 101 and the lower plate 102. [ (110). ≪ / RTI >

When the upper plate 101 and the lower plate 102 are firmly fixed with respect to the upper plate 101 and the lower plate 102 fixed by the clearance fixing device 110 with a gap therebetween, The fastening device 110 can be easily sheared or crushed.

In this case, a hole 112 is formed in the middle part of the fixing device 110 so that the middle part of the fixing device 110 can be well sheared, or a thin intermediate groove 113 ), Or it may be formed by regularly scratching the circumference at the middle portion, and various materials can be used. Representative examples include plastics, ceramics, and aluminum.

Since the standard of a certain strength may vary according to the customer's request, it is necessary to change the material of the fixing device 110 and the thickness of the fixing device 110, and the shearing characteristics of the testing device may be tested and applied.

FIG. 3 of the present invention shows an example when the fixing device is applied to a seismic isolation device.

A hole 104 is formed in a connecting bar (upper bar and lower bar) for connecting the upper plate 101 and the lower plate 102 of the seismic isolation device to the seismic drive unit 120 or the seismic isolation device and the seismic isolation device, holes 104 are formed to provide an environment in which the fixing device 110 can be tightly coupled.

Then, the fastening device 110 having a screw thread on the outer circumferential surface is inserted into the lower plate hole from the upper plate hole of the seismic isolation device and fixed firmly.

As shown in FIG. 4, most of the facilities for manufacturing microwave-processed products such as a facility using a waveguide (destruction at a displacement of about 2 mm) 132 or semiconductor are expensive and expensive. Although the need for a large and long recovery time is required, it is necessary to install a seismic isolation device. However, the existing seismic isolation system has a micro clearance and the isolation of the seismic isolation device is largely affected by the micro clearance.

The present invention is extremely needed in fields that require such seismic countermeasures in response to such microvibration.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. In addition, it is a matter of course that various modifications and variations are possible without departing from the scope of the technical idea of the present invention by anyone having ordinary skill in the art.

100: Isolation device
101: Isolation device top plate 102: Isolation device bottom plate 103: Isolation device connection bar
104: Hole of upper and lower plates for isolation device 105: Female thread (tab)
110: Fixing device with thread
111: thread 112: fixing part middle hole (cutting guide portion)
113: Fixing device Thin intermediate groove (cutting guide)
120: Isolation device driving part 121: Ball (bearing) 122: Rolling part
130: Protected object
131: protective device 132: waveguide
133: Fixture (firmly fixes the isolation device and the object to be protected)
150: Isolation device with fixing device with thread

Claims (3)

A tab 105 having a female screw thread is formed on a hole 104 formed in an upper plate 101 and a lower plate 102 of a normal vibration isolator and a fixing device 110 having a screw thread 111 formed on the outer periphery thereof is assembled Wherein the locking device has a threaded locking device. The method according to claim 1,
Characterized in that it is constituted by a material (plastic, ceramic, or aluminum) that is sheared or crushed when a force (earthquake force) of more than a predetermined strength is applied to the fixing device (110) Device. The method of claim 1,
A hole 112 is formed in the middle of the fixing device 110 or a groove 113 is formed in the fixing device 110 in the middle of the fixing device 110 An isolation device.

Images