KR101284885B1 - Seismic isolation access floor using ball bearing - Google Patents

Abstract

PURPOSE: A vibration isolation excess floor using a ball bearing is provided to easily solve the difficulties of horizontal installation due to a steel ball and to absorb vibration by using the steel ball when earthquake happens. CONSTITUTION: A vibration isolation excess floor (100) using a ball bearing comprises a structure (110), a leg unit (120), a vibration isolation bearing unit (130), and a level control unit (150). The structure is installed in the upper part in order to support protected equipment. The leg unit is separately installed in the lower part of the structure in order to support the structure. The vibration isolation bearing unit is installed between each leg units and the structure and comprises an upper slide plate (131), a lower slide plate (132), and a steel ball (133). The steel ball is installed in order to absorb vibration between an upper slide surface (131a) of the upper slide plate and a lower slide surface of the lower slide plate. The level control unit is installed between the leg unit and the vibration isolation bearing unit. The level control unit supports the vibration bearing unit and controls a level through inclination control of the vibration isolation bearing unit.

Description

Seismic Access Floor using Ball Bearings {SEISMIC ISOLATION ACCESS FLOOR USING BALL BEARING}

The present invention relates to a base isolation access floor using a ball bearing, and more particularly, it is possible to absorb vibration in the event of an earthquake due to the use of steel balls, to easily solve the difficulty of horizontal installation due to steel balls, furthermore, isolating using steel balls The present invention relates to a base isolation access floor using a ball bearing for higher efficiency and durability.

In general, the term “isolating” separates the entire building structure from the ground, or separates a specific part of the building structure from the building structure, so that the ground or building structure is separated from the ground even when the earthquake occurs. Or, a specific part of a building separated from the building structure means relatively less vibration to protect the building structure or equipment installed in a specific part of the building from earthquakes.

On the contrary, "earthquake-resistant" means that the structure itself is firmly designed so that the structure does not collapse even when an earthquake occurs and the structure such as a building, a bridge, or the like vibrates significantly.

Recently, as facilities are automated and computerized, expensive control equipment or computing equipment is installed and operated in factories, office buildings, etc., as shown in FIG. 1, a support structure is installed on the floor of the building and an access floor is provided on the support structure. After installing the double floor to form a control equipment or computing equipment is installed on the access floor. Various cables such as electric wires, signal cables, and communication lines pass through the space between the building floor and the access floor in the access floor structure.

Ordinary control equipment or computer equipment is manufactured in a cabinet shape in order to save space, the floor is narrow and the height is high, such narrow and high objects can be easily overturned when the building vibrates due to the earthquake. As such, when the control equipment or the computer equipment is overturned by an earthquake, the equipment itself may be damaged and become unusable. However, as these equipments are overturned, other important facilities or devices may be damaged to further spread the damage. Therefore, these control equipment or computer equipment should be installed in the place where isolating design is essential.

Large structures, such as buildings and bridges, have specially designed seismic bearings between the substructures and the foundational structures formed on the ground, so that structures supported by the seismic bearings are relatively less vibrated even if the ground vibrates greatly due to an earthquake. This mainly applies.

Most of the seismic bearings used for seismic isolation in large structures are rubber stacks and steel sheet layers alternately stacked in multiple layers and are used where very large vertical loads such as buildings or large structures are applied.

Among the seismic isolation structures according to the prior art, the "Isolation isolation structure of the access floor" of Korean Patent Registration No. 10-0980387 supports a floorboard with a plurality of supports, inserts an earthquake-proof cover with an elastic body embedded at the end of the floorboard, and a roller at the bottom of the support. The supporting part is provided, and each support lower part has an access floor of a structure connected to each other by X using a lower reinforcement member, which has a small displacement of the seismic cover and thus has a limited function of absorbing large vibrations. It is difficult to manufacture because it must be provided with a roller at the bottom of the support, and the roller at the bottom of the support is a structure that supports all the load of the equipment mounted on the access floor, there is a problem that is difficult to be practical as a structure that is difficult to support large loads.

In addition, the "ball bearing isolating device with a conical groove" of the Republic of Korea Patent No. 10-0914032 is inserted between the lower plate and the upper plate having a conical sliding groove, when the steel sphere is applied when the horizontal vibration caused by the earthquake There is a ball bearing seismic isolator that can absorb the horizontal displacement of the building structure while rolling, which can absorb the horizontal vibration caused by the earthquake, but can not absorb the vertical vibration. There is a risk of damage to the equipment installed thereon due to large vertical vibrations.

In order to improve the problems of the conventional seismic isolating structure or apparatus, the applicant has devised a composite seismic bearing and a seismic isolation bed using both of the vertical and horizontal earthquake of the Republic of Korea Patent No. 10-1092574. , Here, the base isolation bed is two or more multiple composite base bearings; It is fixed to the floor of the building, the cross-section of the c-shaped channel, and attached to the composite seismic bearing coupling portion of the channel as a circular bearing coupling hole is formed in the square plate and a number of screw holes around the bearing coupling hole A lower channel consisting of a nut plate formed thereon; And as the installation structure for installing the equipment is fixed, the cross-section of the c-shaped channel, and is attached to the combined surface of the composite seismic bearing of the channel as a circular bearing coupling hole is formed in the square plate around the bearing coupling hole Consists of an upper channel consisting of a nut plate is formed with a plurality of screw holes, the composite seismic bearing is coupled at regular intervals between the lower channel and the upper channel, the projection formed on the lower sliding plate of the ball bearing portion of the composite seismic bearing The lower sliding plate of the ball bearing part is coupled to the nut plate of the lower channel in a state that is inserted into the bearing coupling hole formed in the nut plate of the lower channel, and the protrusion formed on the core of the elastic bearing part is formed on the nut plate of the upper channel. Nose of elastic bearing part inserted into bearing coupling hole Is coupled to the screw nut plate of the upper channel are composite seismic isolation bearings is coupled between the lower channels and upper channels.

However, conventional seismic bearings and both seismic isolation beds using both vertical and horizontal seismic earthquake bearings are protected due to the multiple seismic bearings installed between the upper and lower channels together with the use of the composite seismic bearings with steel balls. It was difficult to install the target structure horizontally, and the time and effort required for construction had problems.

In addition, the conventional seismic bearing and both the seismic isolation bed using both the vertical and horizontal earthquakes are required to increase the seismic efficiency by increasing the vibration absorption using the steel ball, stable load of the equipment to be protected through the steel ball It was necessary to increase the durability more to support it.

In order to solve the conventional problems as described above, the present invention makes it possible to absorb vibrations during the earthquake due to the use of steel balls, to ease the difficulty of horizontal installation due to steel balls, furthermore, to improve the seismic efficiency using steel balls Not only to make it higher, but also to stably support the load of the equipment to be protected through the steel ball to increase the durability.

Other objects of the present invention will be readily understood through the following description of the embodiments.

In order to achieve the object as described above, according to an aspect of the present invention, in the access floor, the protection equipment is installed, the structure is installed on the upper portion so that the protection equipment; A plurality of legs installed at a lower portion of the structure to be spaced apart from each other to support the structure, and installed on an installation surface; The upper sliding surface is made up of a plurality so as to be installed between each of the legs and the structure, each having an upper slide plate and a lower slide plate, respectively located on the upper side and the lower side, the upper sliding surface concave formed on the lower surface of the upper sliding plate And a seismic bearing unit in which steel balls are installed to absorb vibrations between the lower sliding surface formed concave on the upper surface of the lower sliding plate. And it is made of a plurality so as to be installed between each of the leg portion and the base isolation bearing unit, each of the level bolt protrudes upward on the upper leg portion to support the base isolation bearing unit, and rotates the level bolt up and down A base isolation access floor using a ball bearing including a level control unit for adjusting a level by adjusting the inclination of the base isolation bearing unit by moving to is provided.

The leg portion, the lower seating plate fixed to the lower end of the vertical post is placed on the installation surface, the level adjusting unit is installed on the upper seating plate fixed to the upper end of the post, the lower seating plate and the upper seating plate Each of which is connected to a lower end and an upper end of the post by a plurality of reinforcing pieces, and the upper seating plate is connected to the upper seating plate of the other leg portion by a horizontal support member so that the leg parts may be connected to each other and supported.

The base isolation bearing unit may include: an upper support plate having an opening formed to be fitted on an upper side of the upper sliding plate, and fixed to the upper sliding plate by a bolt; An upper housing to which the upper support plate and the upper sliding plate are mounted; An upper fixing plate positioned on an upper side of the upper housing and fixed to the structure and the upper housing by bolts; An lower support plate having an opening formed to be fitted under the lower sliding plate, and fixed to the lower sliding plate by a bolt; A lower housing having the lower support plate and the lower sliding plate mounted thereon; A lower plate positioned below the lower housing; And a lower fixing plate positioned below the lower plate and fixed to the lower support plate, the lower housing and the lower plate by bolts.

The level adjusting unit is provided in plurality for each of the leg portion and the base isolation bearing unit, each of which is screwed so that the level bolt moves up and down in the rotational direction to the bolt support member installed to penetrate the upper end of the leg portion Coupled, the level bolt may be inserted into the base isolation bearing unit is installed to support the bottom surface of the lower sliding plate.

According to the base isolation access floor using a ball bearing according to the present invention, it is possible to absorb the vibration when the earthquake occurs due to the use of the steel ball, to easily solve the difficulty of horizontal installation due to the steel ball, furthermore, to increase the base isolation efficiency using the steel ball In addition, it can stably support the load of the equipment to be protected through the steel ball to further increase durability.

1 is an access floor structure in which a conventional control equipment or computer equipment is installed,
Figure 2 is a front view showing the main portion of the base isolation access floor using a ball bearing according to an embodiment of the present invention,
3 is a plan view of FIG.
Figure 4 is a plan view showing the leg of the base isolation access floor using a ball bearing according to an embodiment of the present invention,
5 is a view for explaining the assembly of the base isolation bearing unit of the base isolation access floor using a ball bearing according to an embodiment of the present invention,
6 is a view for explaining the base assembly of the base isolation bearing unit of the base isolation access floor using a ball bearing according to an embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but is to be understood to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention, And the scope of the present invention is not limited to the following examples.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like or corresponding elements are denoted by the same reference numerals, and redundant explanations thereof will be omitted.

Figure 2 is a front view showing the main portion of the base isolation access floor using a ball bearing according to an embodiment of the present invention, Figure 3 is a plan view showing a second.

2 and 3, the base isolation access floor 100 using a ball bearing according to an embodiment of the present invention is a structure 110, a leg portion 120, a base isolation bearing unit 130, It may include a level control unit 150.

The structure 110 is installed at an upper portion to support the protection target equipment, such as a control device or a computerized device. For example, the structure 110 is formed of a connection structure of the horizontal beam member 111 and the vertical beam member 112, or various frames or plates. It may be made of a structure or a structure in which reinforcing structures are added thereto.

Leg portion 120 is installed in a plurality of spaced apart from each other to support the structure 110, and installed on the installation surface, such as the ground, at least four or more, as in this embodiment The structure 110 may be arranged in a vertical direction and a horizontal direction.

Leg portion 120 is the lower seating plate 122 is fixed to the bottom of the vertical post 121 is placed on the installation surface, the level control unit on the upper seating plate 123 is fixed to the top of the post 121 150, for example, the bolt supporting member 152 which will be described later is installed to vertically penetrate, and each of the lower seating plate 122 and the upper seating plate 123 is a post 121 by a plurality of reinforcing pieces 124. It is connected by welding to the bottom and top of each.

As shown in FIG. 4, the leg part 120 is connected to the upper seat plate 123 by a bolt or the like with a horizontal support member 125 to the upper seat plate 123 of another leg part 120. 120 is connected to each other and supported, and can be connected to the letter "wh" by the horizontal support member 125, as in the present embodiment, the leg portion 120 is fixed to the installation surface by the bolt 126 as necessary It may be.

The base isolation bearing unit 130 is formed of a number corresponding to the number of legs 120, for example, between each of the leg parts 120 and the structure 110, and each of the upper and lower parts respectively positioned at an upper side and a lower side. A lower slide having a sliding plate 131 and a lower sliding plate 132, and formed to be concave on an upper surface of the upper sliding surface 131a and the lower sliding plate 132, which are formed concave on the lower surface of the upper sliding plate 131. Steel balls 133 are installed between the surfaces 132a to absorb vibrations.

The upper sliding plate 131 forms an upper sliding surface 131a, which is an inclined surface that becomes deeper from the edge to the center on the lower surface, and the lower sliding plate 132 is a lower sliding surface that is an inclined surface that gradually deepens from the edge on the upper surface. 132a is formed.

The upper sliding plate 131 and the lower sliding plate 132 may be directly coupled to other components by forming a screw hole in the lower surface, but flanges 131b and 132b formed at regular intervals along the circumference of the fixing holes on the side; And the upper sliding surface 131a and the lower sliding surface 132a may be processed into a curved surface such as a spherical surface, a parabolic surface, and the like. It may be machined into a conical surface having this constant inclination.

Steel ball 133 may be a steel sphere of a predetermined diameter heat-treated the surface.

As shown in FIGS. 5 and 6, the base isolation bearing unit 130 has an opening 134a formed to be fitted above the upper sliding plate 131, and the upper sliding plate 131 is formed by the bolt 142. The upper support plate 134 to be fixed, the upper support plate 134 and the upper sliding plate 131 is located on the lower side of the upper housing 135, the upper housing 135, the upper structure of the bolt 143 An upper fixing plate 136 to which the 110 and the upper housing 135 are fixed together, and an opening 137a is formed to fit under the lower sliding plate 132, and the lower sliding plate 132 is formed by the bolt 144. A lower support plate 137 to which is fixed), a lower housing 138 on which the lower support plate 137 and a lower sliding plate 132 are mounted, and a lower plate 139 positioned below the lower housing 138. , A lower fixing plate positioned below the lower plate 139 and fixed by the lower support plate 137, the lower housing 138, and the lower plate 139 by bolts 145 ( 141). Therefore, the seismic isolation bearing unit 130 allows the upper sliding plate 131 and the lower sliding plate 132 to stably support the steel ball 133 by this configuration, and further, to be unitized to increase the assemblability.

Level adjustment unit 150 is made of a plurality so as to be installed between each of the leg parts 120 and the base isolation bearing unit 130, each of the level bolt 151 protrudes upward on the leg portion 120 To support the base isolation bearing unit 130, by adjusting the inclination of the base isolation bearing unit 130 by rotating the level bolt 151 to move up and down.

The level adjusting unit 150 may be provided with a plurality, for example, 2 to 4, each of the leg portion 120 and the base isolation bearing unit 130, each of the upper seating plate 123 is the upper end of the leg portion 120 The level bolt 151 is screwed to move up and down by the rotation direction to the bolt support member 152 installed to pass through, the level bolt 151 is the lower fixing plate 141, the lower plate of the base isolation bearing unit 130 The 139 and the lower housing 138 may be inserted into the holes 141a, 139a, and 138a, respectively, and installed to support the bottom surface of the lower sliding plate 132.

According to the base isolation access floor 100 using the ball bearing according to the present invention, when the equipment to be protected from the earthquake is installed in the structure 110, when the earthquake occurs, the steel ball 133 of the base isolation bearing unit 130 ) To absorb the vibration while rolling the upper sliding surface 131a of the upper sliding plate 131 and the lower sliding plate 132a of the lower sliding plate 132 to protect the equipment to be protected.

In addition, the difficulty of horizontal installation due to the steel ball 133 can be easily solved by the level adjusting unit 150, each of the leg portion 120 is made independently, and the leg portion 120 is a horizontal support member 125 By being connected to), not only to increase the seismic isolation efficiency using the steel ball 133, but also to stably support the load of the equipment to be protected through the steel ball 133 to increase durability.

Although the present invention has been described with reference to the accompanying drawings, it is to be understood that various changes and modifications may be made without departing from the spirit of the invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the following claims.

110: structure 111: horizontal beam member
112: vertical beam member 120: leg portion
121: post 122: lower seating plate
123: upper seat plate 124: reinforcing piece
125: horizontal support member 126: bolt
130: seismic isolation bearing unit 131: upper sliding plate
131a: upper sliding surface 131b: flange
132: lower sliding plate 132a: lower sliding surface
132b: flange 133: steel ball
134: upper support plate 134a: opening
135: upper housing 136: upper fixing plate
137: lower support plate 137a: opening
138: lower housing 138a: hole
139: lower plate 139a: hole
141: lower fixing plate 141a: hole
142,143,144,145: Bolt 150: Level control unit
151: level bolt 152: bolt support member

Claims (4)

In the access floor where the equipment to be protected is installed,
A structure installed at an upper portion so that the protection target equipment is supported;
A plurality of legs installed at a lower portion of the structure to be spaced apart from each other to support the structure, and installed on an installation surface;
The upper sliding surface is made up of a plurality so as to be installed between each of the legs and the structure, each having an upper slide plate and a lower slide plate, respectively located on the upper side and the lower side, the upper sliding surface concave formed on the lower surface of the upper sliding plate And a seismic bearing unit in which steel balls are installed to absorb vibrations between the lower sliding surface formed concave on the upper surface of the lower sliding plate. And
It is made of a plurality so as to be installed between each of the leg portion and the base isolation bearing unit, each of the level bolt protrudes upward on the leg portion to support the base isolation bearing unit, and rotates the level bolt up and down Includes; level control unit for adjusting the level by adjusting the inclination of the base isolation bearing unit by moving,
The base isolation bearing unit,
An upper support plate having an opening formed to be fitted above the upper sliding plate, and fixed to the upper sliding plate by bolts;
An upper housing to which the upper support plate and the upper sliding plate are mounted;
An upper fixing plate positioned on an upper side of the upper housing and fixed to the structure and the upper housing by bolts;
An lower support plate having an opening formed to be fitted under the lower sliding plate, and fixed to the lower sliding plate by a bolt;
A lower housing having the lower support plate and the lower sliding plate mounted thereon;
A lower plate positioned below the lower housing; And
A lower fixing plate positioned below the lower plate and fixed to the lower supporting plate, the lower housing and the lower plate by bolts;
A base isolation access floor using a ball bearing, characterized in that it further comprises. The method of claim 1, wherein the leg portion,
The lower seat plate fixed to the bottom of the vertical post is placed on the installation surface, the level adjusting unit is installed on the upper seat plate fixed to the top of the post, the lower seat plate and the upper seat plate each of the plurality The base is connected to the lower and upper ends of the post by a reinforcing piece, and the upper seating plate is connected to the upper seating plate of the other leg portion by a horizontal support member, so that the leg parts are connected to each other and supported. . delete According to claim 1, wherein the level control unit,
A plurality of each of the leg portion and the base isolation bearing unit is installed,
Each one,
The level bolt is screwed to the bolt support member installed to penetrate the upper end of the leg portion to move up and down in the rotational direction, and the level bolt is inserted into the base isolation bearing unit to support the bottom surface of the lower sliding plate. Isolation-based access floor using a ball bearing characterized in that.

Images