KR101184741B1 - Pedestal device with earthquake-proof performance for access floor - Google Patents

Abstract

PURPOSE: A pedestal structure having earthquake-proof performance for an access floor is provided to stably support an upper panel in an earthquake and to improve earthquake-proof performance by absorbing and reducing horizontal vibration and shock. CONSTITUTION: A pedestal structure having earthquake-proof performance for an access floor comprises a bottom fixing device(110), a vertical support(120), a head support, and an earthquake-proof head. The bottom fixing device is fixed to a bottom to support an upper panel. The vertical support is vertically installed on the bottom fixing device. The head support is installed on the vertical support to be liftable. The earthquake-proof head is installed on the top end of the head support and is connected to the upper panel.

Description

Isolation Fixing Structure for Access Floor {PEDESTAL DEVICE WITH EARTHQUAKE-PROOF PERFORMANCE FOR ACCESS FLOOR}

The present invention relates to a base isolation fixing structure for an access floor, and more particularly, to improve the base isolation performance by allowing the upper panel to stably support and absorb and attenuate horizontal vibrations and shocks in the event of an earthquake. In particular, the present invention relates to a seismic isolating structure for an access floor that can effectively absorb and attenuate horizontal vibrations and shocks in the event of a large earthquake.

In general, an access floor refers to a double floor provided with one additional floor spaced at a predetermined interval on a flat floor. The access floor is an electric floor, a lower floor of a double floor in an electrical facility, a communication facility, a computer room, a laboratory, an office, or the like. It is configured to arrange the cables and the like in the space provided in the.

Recently, the frequency of earthquakes in Korea has been increasing, so it is necessary to install an access floor with seismic performance for the protection of national administrative communication networks, banking computer networks, various communication networks, and power facilities. It is striving to prepare comprehensive measures and is enacting and implementing measures against earthquake disasters, and the demand for seismic access floor for securing seismic performance of infrastructure is on the rise.

1 is a view for explaining a conventional structure for the access floor, as shown in the access floor is a plurality of fixing structure 10 is installed on the floor and the upper panel 20 is installed on top of the fixing structure (10) It consists of).

The fixing structure 10 includes a bottom support plate 11 installed and fixed to the bottom, a vertical support 12 installed in the vertical direction on the bottom support plate 11, and a head support mounted on the vertical support 12. 13), the fixing nut 14 is fastened for height adjustment of the head support 13, and the head 15 is installed on the top of the head support (13). The fixing structure 10 and the upper panel 20 are configured to be connected to and supported by the connection support 30 installed in all directions on the head.

In the conventional access floor, since the upper panel 20 is stably supported by the connection support 30 fixed to the head 15 at the time of the earthquake, the earthquake-resistant action may be performed to a certain extent in an earthquake having a low magnitude. Since the vertical support 12 performing the seismic action to 11 is coupled with a fixed structure, the left and right swings are impossible, so when an earthquake with a large magnitude is generated, the vibration and impact force in the horizontal direction cannot be absorbed and attenuated. Accordingly, since the components constituting the fixing structure 10 are damaged or damaged, the facilities installed in the upper panel 20 may fall and fall, and thus may not be safely protected.

On the other hand, in recent years, the frequency of earthquakes in the countries around the Korean peninsula has increased more, and especially large-scale earthquakes have caused serious deaths due to radiation leakage as well as the shutdown of nuclear power plants. However, the conventional access floor fixing structure was developed based on a small earthquake, and thus, an urgent improvement is needed because it cannot cope with a large earthquake.

SUMMARY OF THE INVENTION The present invention has been proposed in view of the above, and provides a seismic fixing structure for an access floor to improve seismic performance by allowing the upper panel to be stably supported while absorbing and attenuating horizontal vibrations and shocks during an earthquake. Its purpose is to.

Another object of the present invention is to provide a seismic fixing structure for an access floor that can effectively absorb and attenuate horizontal vibrations and shocks in the event of a large earthquake.

In order to achieve the above object, the base isolation fixing structure for access floor according to the present invention is installed on the floor, the base fixing device for fixing, and the base support fixing structure for access floor having a vertical support installed in the vertical direction to the floor fixing device In the bottom fixing device is a plurality of movements installed in the receiving space to move the vertical support against the horizontal external force due to the earthquake, the bottom fixing case protruding from the bottom plate to form a receiving space therein, the earthquake Ball, a plurality of rotation guide balls arranged on the outer circumferential surface of the moving ball and having a smaller diameter than the moving ball, and the receiving space to absorb and attenuate vibration and impact force while limiting the moving range of the vertical support. A buffer member is installed on the inner surface of the vertical support is accommodated in the receiving space at the lower end It is provided with a seating plate which is moved by the movable ball, the seating plate is characterized in that the ball receiving groove is accommodated, formed by receiving the rotating guide ball including the movable ball.

The bottom fixing device may include a cover device coupled to an upper circumference of the support wall and supporting the seat plate to be movable.

And, the cover device, a plurality of auxiliary guide ball seated on the upper surface of the seating plate; And a cover plate formed in a disc shape having a center hole and having a groove for receiving an upper portion of the auxiliary guide ball on an inner bottom surface coupled to an upper edge of the support wall and disposed toward the vertical support. can do.

In addition, the ball receiving groove is an upper receiving groove portion formed around the upper outer peripheral surface of the movable ball, an upper extension receiving groove portion extending upward from the lower peripheral portion of the upper receiving groove portion, and the lower peripheral portion of the lower receiving groove portion It may be composed of a lower extension receiving groove extending to.

The bottom plate may be formed in the lower portion of the center of the receiving space and the moving ball moving surface is the moving ball is moved to the cloud, and the seating plate moving surface protrudes in the peripheral portion of the moving ball moving surface, the seating plate is received, moved .

On the other hand, the support wall is moved, possibly separated, configured on the bottom plate, a fixed plate protruding integrally upwardly to the bottom plate so as to be located around the support wall, and a buffer disposed between the fixed plate and the support wall It characterized in that it comprises a support member.

According to the base isolation fixing structure for access floor according to the present invention, since the lower part of the vertical support is seated on the moving ball moving in the floor fixing case, the vibration of the horizontal direction and supporting the load of the facility installed in the upper panel during the earthquake occurs. Shock can be effectively absorbed and attenuated.

In particular, when the mounting plate of the vertical support is in close contact with the inner circumferential surface of the cushioning member, vibration and impact force are primarily absorbed and attenuated. It can perform an effective seismic effect on.

1 is a view for explaining a base isolation fixing structure for a conventional access floor;
2 is a perspective view showing a base isolation fixing structure for an access floor according to an embodiment of the present invention;
Figure 3 is an enlarged perspective view of the main portion of the seismic isolation structure for access floor according to an embodiment of the present invention,
Figure 4 is an enlarged cross-sectional view of the main portion of the base isolation fixing structure for access floor according to an embodiment of the present invention;
Figure 5 is an enlarged perspective view of the main portion of the seismic isolation structure for an access floor according to another embodiment of the present invention,
6 is an enlarged cross-sectional view showing main parts of a base isolation fixing structure for an access floor according to another embodiment of the present invention;

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

Figure 2 is a perspective view showing a seismic fixing structure for an access floor according to an embodiment of the present invention, Figure 3 is an enlarged separated perspective view of the main portion of the seismic fixing structure for an access floor according to an embodiment of the present invention, Figure 4 is 1 is an enlarged cross-sectional view illustrating main parts of a base isolation fixing structure for an access floor, according to an exemplary embodiment;

2 to 4, the base isolation fixing structure 100 for an access floor according to an embodiment of the present invention is installed and fixed on the floor in a structure that is installed at a bottom thereof so as to support the top panel 20. The bottom fixing device 110, the vertical support 120 is installed in the vertical direction to the floor fixing device 110, the head support 130 is installed to be elevated on the vertical support 120, and the head support 130 It is composed of a seismic head 140 is installed at the top of the upper panel 20 and connected to the side.

The bottom fixing device 110 is provided with a bottom fixing case 111, the moving ball 112, the rotation guide ball 113, and the buffer member 114.

The bottom fixing case 111 is composed of a bottom plate 111a installed and fixed to the bottom, and a support wall 111b protruding upward from the bottom plate 111a to form an accommodation space 111c therein.

The bottom plate 111a is formed in a structure in which a plurality of fastening holes 111d are penetrated so that the fastening member 119 for fastening with the bottom surface is inserted into an inner edge portion of the body formed in a substantially disk shape. The support wall 111b protrudes in a cylindrical shape on the upper surface of the bottom plate 111b, and a fastening hole is formed at the upper circumference for fastening the cover device 115 to be described later.

In addition, the bottom plate (111a) is formed in the center lower portion of the receiving space (111c) and the moving ball 112, the moving ball moving surface 111e and the rolling support projected to the peripheral portion of the moving ball moving surface 111e and vertical support A seating plate moving surface 111f is formed to receive and move the seating plate 122 provided below the 120. At this time, the movable ball moving surface (111e) is formed to a height that is spaced apart by a minute gap without directly contacting the bottom surface of the seating plate (122).

The movable ball 112 is inserted into the receiving space (111c) is to be seated on the upper surface of the bottom plate (111a) to be cloud-movable, it is composed of a plurality of so as to support the seating plate 122 located on the outer peripheral surface have. In this embodiment, three moving balls 112 are arranged to stably support the vertical support 120, but may be configured to four or more according to the size of the vertical support, the size of the load applied to the vertical support. have.

The rotary guide ball 113 is arranged on the outer circumferential surface of the movable ball 112 to guide rotation, and a plurality of balls having a smaller diameter than the movable ball 112 are arranged and arranged to surround the movable ball.

The shock absorbing member 114 is inserted into the receiving space 111c so as to absorb and attenuate the vibration and impact force while limiting the moving range of the vertical support 120 and is mounted on the inner circumferential surface of the support wall 111b. The shock absorbing member 114 is formed in a ring shape (cylindrical shape having a low height) by a shock absorbing material such as rubber, urethane, shock absorbing synthetic resin, or the like. In addition, the shock absorbing member 114 is preferably formed in a structure having a plurality of shock absorbing holes in consideration of shock absorbing properties.

On the other hand, the vertical support 120 is a screw hole (not shown) having a screw thread to be coupled to the head support 130, the inner peripheral surface of the holding body 121 formed in a cylindrical shape as shown in Figure 2, A lower end portion is provided with a seating plate 122 accommodated in the receiving space 111c to be movable to the movable ball 112.

The seating plate 122 is recessed and formed in the bottom of the body having a disc shape as shown in Figure 4, the ball receiving groove 123 to accommodate the rotation guide ball 113 including the moving ball 112.

And, the ball receiving groove 123 is the upper receiving groove 123a formed around the upper outer peripheral surface of the moving ball 112, the upper extension receiving groove 123b extending upward from the lower peripheral portion of the upper receiving groove 123a. And a lower extension receiving groove 123c extending downward from the lower peripheral portion of the upper receiving groove 123a. And, as described above, when the lower extension receiving groove 123c is extended and formed downward from the upper receiving groove 123a, the quantity of the rotating guide ball 113 in contact with the outer circumferential surface of the moving ball 112 can be maximized. Therefore, the load applied from the vertical support is evenly transmitted to the moving ball 112, and the rolling motion of the moving ball 112 is precisely and smoothly made so that the absorption and attenuation action according to the magnitude of the horizontal vibration force of the earthquake is more precise. Do it.

As shown in FIG. 2, the head support 130 is a member having a threaded portion 131 formed on an outer circumferential surface of a body having an annular rod shape and screwed into a screw hole of the vertical support 120 to be rotated in a forward and reverse direction to move up or down. It is to be fixed by the fixing nut 150 in a state adjusted to a specific position as.

On the other hand, the bottom fixing device 110 is installed on the upper portion of the support wall (111b) is inserted into the receiving space (111c) to prevent the detachment of the seating plate 122 installed, the cover device to support the mounting plate to move 115 is provided.

 The cover device 115 includes a plurality of auxiliary guide balls 115b seated between the cover plate 115a installed on the support wall 111b and the bottom surface of the cover plate 115a and the top surface of the seating plate 122. Consists of. The cover plate 115a is formed in a disc shape having a central hole, and an edge portion is coupled to an upper circumference of the support wall 111b, and an inner portion thereof is disposed toward the vertical support 120, and the auxiliary guide ball 115b is disposed on the inner bottom surface thereof. A groove is formed in which the upper portion of the groove is accommodated.

Hereinafter, the operation of the base isolation fixing structure for the access floor according to an embodiment of the present invention.

Looking at the process of constructing the access floor using the above-mentioned base isolation fixing structure 100 for the access floor, first, as shown in Figure 3, the fastening member 119, the fastening hole (111d) of the bottom plate (111a) Inserting and fastening the anchor bolt, etc.) to install the bottom fixing case 111, and inserting and installing the buffer member 114 on the inner circumferential surface of the support wall 111b, and then the ball receiving groove 123 of the seating plate 122 The vertical guide 120 in which the auxiliary guide ball 113 and the moving ball 112 are assembled in sequence is inserted into the receiving space 111c.

Thereafter, the auxiliary guide ball 115b is inserted into the groove of the cover plate 115a, and one side of the cover plate 115a is fastened to the support wall 111b so that the auxiliary guide ball contacts the upper surface of the seating plate. When the head support 130 and the seismic head 140 are sequentially assembled, the assembling of the base isolation fixing structure 100 is completed.

As described above, the plurality of base isolation fixing structures 100 are sequentially installed at predetermined intervals, and when the seismic head 140 heights of the base isolation fixing structures 100 are different from each other, the head support 130 is rotated in the forward and reverse directions. Adjust the height and fasten by fixing the fixing nut 150 to maintain the adjusted state. Then, when the connection support 30 is installed on the seismic head 140 and the upper panel 20 is assembled, the construction of the access floor is completed.

When the horizontal vibration force is transmitted due to the occurrence of an earthquake in the state in which the access floor is constructed as described above, since the movable ball 112 is seated on the seating plate 122 of the vertical support 120, the movable ball 112 is cloud-operated. At the same time, the outer peripheral portion of the seating plate 122 is in close contact with the inner peripheral surface of the buffer member 114, the vibration is absorbed, attenuated. At this time, the moving ball 112 is guided to the rotation guide ball 113 disposed on the outer circumferential surface so that it can be rotated smoothly to perform an effective isolation action.

5 is an enlarged and exploded perspective view of a main part of a base isolation fixing structure for an access floor according to another embodiment of the present invention; The same and similar components as those shown in the base isolation fixing structure for an access floor according to an exemplary embodiment are denoted by the same reference numerals, and detailed description thereof will be omitted.

5 and 6, the seismic fixing structure for an access floor according to another embodiment of the present invention includes a floor fixing device 110, a vertical support 120, a head support 130, and a seismic head 140. In the case of a large-scale earthquake having a large magnitude, the vibration absorbing and attenuating vibration is primarily configured to absorb and attenuate the vibration while moving in the horizontal direction once more.

To this end, the bottom fixing device 110 is a bottom fixing case 111 consisting of a bottom plate (111a) and the support wall (111b), the moving ball 112, the rotating guide ball 113, and the buffer member 114 Although provided, the support wall 111b of the bottom fixing case 111 is movable on the bottom plate 111a, and is separated and configured. The bottom fixing case 111 is interposed between the fixing plate 111g protruding integrally upward from the bottom plate 111a so as to be positioned around the support wall 111b, and between the fixing plate 118g and the support wall 111b. And a buffer supporting member 111h.

The fixing plate 111g protrudes and is formed in a substantially cylindrical shape on the bottom plate. In addition, the buffer support member 111h is formed in a ring shape by a material having an impact absorbing property, and has a density or elastic modulus greater than that of the shock absorbing member 114 and has a large mechanical rigidity.

For example, the buffer support member 111h may be formed in a structure in which glass fibers, steel wires, and reinforcement are embedded in a body formed of a material having impact absorbing properties such as rubber, urethane, and shock absorbing synthetic resin.

As described above, the seismic isolation structure for an access floor according to another embodiment of the present invention can effectively perform a weaving action in the event of a large earthquake with high magnitude. That is, when a large horizontal vibration force is transmitted due to the occurrence of a large earthquake, the seating plate 122 of the vertical support 120 is slid with the moving ball 112, and the seating plate 122 is the inner circumferential surface of the buffer member 114. As it closely adheres to, the horizontal vibration force is primarily absorbed and attenuated.

Thereafter, while the support wall 111b is moved outward, the vibration is absorbed and attenuated secondaryly while being closely adhered by the buffer support member 111h interposed between the fixing plate 111g and the support wall. Accordingly, the seismic isolation structure for an access floor according to another embodiment of the present invention can perform an effective seismic isolation from an earthquake with a small earthquake to an earthquake with a large earthquake.

What has been described above is just one embodiment for implementing the base isolation fixing structure for access floor according to the present invention, and the present invention is not limited to the above-described embodiment, and as claimed in the following claims, the present invention Those skilled in the art to which the present invention pertains without departing from the spirit of the present invention will have the technical idea of the present invention to the extent that various modifications can be made.

100: seismic isolation structure 110: floor fixing device
111: bottom fixing case 111a: bottom plate
111b: support wall 111c: receiving space
111g: fixed plate 111h: buffer support member
112: moving ball 113: rotating guide ball
114: buffer member 115: cover device
115a: Cover plate 115b: Secondary guide ball
120: vertical support 121: holding body
122: seating plate 123: ball receiving groove
123a: Upper accommodating groove 123b: Upper accommodating groove
123c: lower extension receiving groove 130: head support
140: seismic head 150: fixing nut

Claims (5)

In the base fixing fixture for access floor having a floor fixing device installed on the floor, fixed, and a vertical support installed in the vertical direction to the floor fixing device,
The floor fixing device includes a bottom fixing case in which a support wall protrudes from the bottom plate so that an accommodation space is formed therein, and a plurality of moving balls installed in the accommodation space to move the vertical support against a horizontal external force caused by an earthquake. Is disposed on the outer circumferential surface of the moving ball to guide the rotation and a plurality of rotary guide ball having a smaller diameter than the moving ball, and the inner surface of the receiving space to absorb and attenuate vibration and impact force while limiting the moving range of the vertical support Including a cushioning member is installed,
The vertical support has a seating plate which is accommodated in the receiving space at the lower end is moved by the moving ball, the seating plate is characterized in that the ball receiving groove is accommodated, the rotating guide ball containing the moving ball is formed Base isolation fixing structure for access floor.
The method of claim 1,
And the bottom fixing device is coupled to an upper circumference of the support wall and includes a cover device for movably supporting the seating plate.
The method of claim 2,
The cover device,
A plurality of auxiliary guide balls seated on an upper surface of the seating plate; And
It includes a cover plate formed in a disk shape having a central hole and the outer edge portion is coupled to the upper circumference of the support wall and the groove is formed on the inner bottom surface disposed toward the vertical support is accommodated the upper portion of the auxiliary guide ball A base isolation fixing structure for an access floor, characterized in that.
The method of claim 1,
The ball receiving groove extends downwardly from an upper receiving groove portion formed around the upper outer circumferential surface of the moving ball, an upper extension receiving groove portion extending upward from a lower peripheral portion of the upper receiving groove portion, and a lower peripheral portion of the upper receiving groove portion. Consisting of the lower extension receiving groove,
The bottom plate is formed in the center lower portion of the receiving space and the moving ball moving surface is the moving ball is moved, and protruding to the periphery of the moving ball moving surface and the seating plate is characterized in that the seating plate moving surface is received, moved Base isolation fixtures for access floors.
5. The method according to any one of claims 1 to 4,
The support wall is moved, possibly separated and configured on the bottom plate,
And a fixing plate integrally protruding upward from the bottom plate so as to be positioned around the support wall, and a buffer support member disposed between the fixing plate and the support wall.

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