KR102263376B1 - Vibration reduction device with minimum height structure - Google Patents

Abstract

The present invention relates to a vibration reduction apparatus with a minimum height structure having a ball caster, comprising: a pair of square plates supporting the feet of a subject to vibration reduction; an upper cover plate connecting the pair of square plates; a lower cover plate formed in a shape corresponding to the upper cover plate and placed on the bottom surface of the upper cover plate; a vibration absorption unit which includes a housing formed in a disc shape to be engaged with the bottom surface on the center of the square plates of the upper cover plate, one or more downward ball casters inserted into and coupled to the housing, and a ring disc-shaped brake pad engaged in contact with a rolling ball exposed from the ball casters while including a ball contact unit with an internal diameter which is equal to or smaller than an exposure slot through which a rolling ball of the ball casters is exposed; and a lower ball rolling plate engaged with an upper surface of the lower cover plate, and including a circular horizontal section where the rolling ball of the ball casters rolls, and a gradient section formed inclined to the outside of the horizontal section. The present invention aims to provide a vibration reduction apparatus with a minimum height structure having a ball caster, which is able to have a simple structure and be made at a low cost.

Description

A seismic isolator with a minimum height structure equipped with a ball caster {VIBRATION REDUCTION DEVICE WITH MINIMUM HEIGHT STRUCTURE}

The present invention relates to a vibration isolator having a minimum height structure having a ball caster.

Because expensive computer equipment, communication equipment, or precision measuring equipment are sensitive to temperature, it is necessary to maintain the temperature of the space where these equipment is installed at an appropriate temperature. For this purpose, a raised floor is usually installed and then computer equipment is placed on the upper part of the raised floor. Lights are installed, and ducts connected to air conditioners are installed on the lower part of the raised floor to control the indoor temperature.

On the other hand, when an earthquake occurs, vibrations are transmitted to structures such as buildings or facilities in the vertical or horizontal direction, and the horizontal vibrations severely shake and twist the structure. When the transmitted vibration is large, it partially damages the structure, reducing the stability of the structure, and in severe cases, the structure collapses. In order to protect structures and equipment from earthquakes, various seismic devices have been developed and used.

Even when installing a raised floor, if vibration is applied from an earthquake, damage to precision equipment, etc. cannot be avoided, and in this case, it may lead to serious work paralysis. Various devices are being developed to protect the equipment installed on the raised floor.

In accordance with the government's strengthening of the Volcanic Earthquake Disaster Countermeasures Act, in order to establish seismic reinforcement measures for the general raised floors installed in the computer rooms of public institutions and general companies, various computer equipment installs seismic isolators at the lower part if necessary.

The seismic isolator uses a device for absorbing vibration in order to maximize the seismic vibration reduction function. In order to solve the problem that the displacement of the loaded object is affected while the degree of acceleration caused by the force generated by the seismic energy is reduced, the seismic isolator that separates the seismic isolating object from the ground has a separate internal structure for vibration damping. A variety of damping structures are being studied in relation to this.

LM rails, ball and ball rolling plates, ball transfers, and springs are used in the structure for vibration damping.

Conventional Patent Registration No. 10-0971365. In the case of Patent Registration No. 10-1465335 and Patent Registration No. 10-0914032, one ball is used as a vibration damping structure in a ball rolling plate in the form of a hemispherical shape. In order to have a basic structure of a seismic isolator with a ball of a certain size and a hemispherical ball rolling plate, a height of at least 50mm is required. When one ball is used for one hemispherical ball rolling plate, it is difficult to maintain the horizontal level, so it is difficult to use it as a unit of one module. In addition, there is a problem in that it is necessary to separately form the friction resistance structure of the ball roll.

On the other hand, the general height of each floor in a building is around 3M, and for the computer room to be installed in such a building, finishing tex and lighting facilities must be built on the ceiling at this height, and a raised floor must be installed on the floor. After all, it is the environment of a general computer room to have a space of 2.5M ~ 2.2M in height, and the general environment other than the computer room is similar. In such a building, the usable height within the space where the seismic isolation equipment should be installed is 2.2 to 2.5 m, and the height of various equipment (computers, server equipment, communication equipment, major facilities, etc.) that are the main seismic isolation equipment is large enough in a small space. It is usually around 2m in height as it tends to get taller to load the system. Therefore, due to these problems, the higher the height of the seismic isolator, the more difficult it is to install, or there are many places where it is impossible to install at all.

In addition, as the height of the seismic isolator increases, the risk of an accident in which the loaded equipment is overturned or overturned due to various vibrations increases several times. Therefore, the lower the height, the lower the risk. Therefore, it is necessary to develop a seismic isolator having a minimum height structure.

On the other hand, the square-shaped seismic isolator with the ball caster at the center needs to add a complex configuration such as a plurality of brake devices such as a ball plunger to reduce vibration at the four corners, which increases the cost and complicates the manufacturing process. there was

Republic of Korea Patent Publication No. 10-0971365 Republic of Korea Patent Publication No. 10-1465335 Republic of Korea Patent Publication No. 10-0914032

The present invention has been devised to solve the problems of the seismic isolator as described above, and it is an object of the present invention to provide a seismic isolator with a simple structure and low cost and capable of miniaturization by applying a bolt transfer structure seismic isolator. There is this.

Another object of the present invention is to provide a seismic isolator table provided with a seismic isolator in which the seismic isolation function is further strengthened.

The present invention, a pair of square plates for supporting the feet of the seismic isolation object, an upper cover plate consisting of a connecting portion for connecting the pair of square plates;
a lower cover plate comprising a square plate and a connecting portion corresponding to the upper cover plate and positioned on a lower surface of the upper cover plate;
A housing formed in the shape of a disk and coupled to the center bottom surface of the square plate of the upper cover plate, one or more top-down ball casters inserted and coupled to the housing, an inner diameter equal to or smaller than the exposed slot through which the rolling balls of the ball caster are exposed a vibration absorbing part including a brake pad having a ring disc shape coupled to be in contact with the rolling ball exposed of the ball caster, including a ball contact part; and
Having a rectangular plate-shaped contour, a horizontal circular horizontal section is formed in the central region of the upper surface, and the gradient section is formed to extend from the outer diameter of the horizontal section, and the gradient section is formed to become thicker as it goes outward, and the lower cover plate and a lower ball rolling plate coupled to the upper surface of the square plate of the ball caster to roll the rolling ball of the ball caster in the horizontal section,
The ball caster includes the rolling ball, a case for accommodating the rolling ball, and a first base coupled to the opening of the case and having an exposed slot through which the rolling ball is exposed, the case having a cylindrical space and the Consists of a disk ring-shaped flange extending to the outside of the opening end of the space, the first base is formed in the same disk shape as the outer diameter of the flange is coupled to the flange,
The brake pad includes a second base of a ring disk shape having the same inner diameter and outer diameter as the flange, and the ball extending inside the second base and extending from the bottom to have a smaller thickness than the second base to form a ring disk shape Consists of a contact
It is formed in a shape and size corresponding to the second base, is coupled between the brake pad and the first base of the ball caster, and by adjusting the thickness, the ball contact portion of the brake pad is connected to the rolling ball of the ball caster. Minimum height structure having a ball caster, characterized in that it further comprises a simple plate for adjusting the contact height and the contact amount and contact pressure of the rolling ball and the area in contact with the rolling ball of the ball contact portion by adjusting the contact height Provides a vibration isolator.
The outline is formed in an isosceles triangle so as to have a size and shape corresponding to each corner of the square plate of the upper cover plate, the surface facing the center of the square plate is formed to be round, and on the isosceles side that meets the corner of the square plate Each corresponding surface is formed with a first insertion portion in the shape of a straight groove cut inward, and the first insertion portion has an upper corner block in which one or more first insertion grooves of a set size are formed inwardly perpendicular to the side surface. Including, the upper corner block is characterized in that coupled to each corner of the bottom surface of the square plate of the upper cover plate.
The lower ball rolling plate has a square contour corresponding to the square plate of the lower cover plate, is coupled to the upper surface of the square plate, and has a corner area of a shape corresponding to the upper corner block having a larger thickness than the gradient section outside the slope section is formed, and a second insertion portion is formed on an isosceles side of the corner of the corner region in a shape corresponding to a position corresponding to the first insertion portion, and a second insertion portion is formed in a shape corresponding to a position corresponding to the first insertion groove. It is characterized in that a groove is formed.
Further comprising a connecting member for connecting a pair of the main body consisting of the upper cover plate, the lower cover plate, the vibration absorbing part and the lower ball rolling plate,
The connecting member is a pair of second corner coupling parts of a corresponding shape to be inserted into the first insertion part of the neighboring upper corner block of the neighboring pair of the main body or the second insertion part of the neighboring lower ball rolling plate. and a second connector connecting the pair of second corner coupling parts.
The first insertion part of the upper corner block disposed on the pair of square plates spaced apart from each other with the connection part of the upper cover plate and the lower cover plate interposed between the first insertion part or the corner area of the lower ball rolling plate. A pair of corner coupling parts coupled to each of the second insertion parts and a connector connecting the pair of corner coupling parts, wherein the corner coupling part further comprises a side bar formed in the shape of '┛' and '┗' do it with

delete

delete

delete

delete

delete

delete

delete

According to the embodiment of the present invention configured as described above, by applying the bolt transfer structure seismic isolator, it is possible to provide a simple structure and low cost manufacturing, and to provide a minimum height structure seismic isolator equipped with a miniaturized ball caster. can

1 is a perspective view showing a seismic isolator according to an embodiment of the present invention.
FIG. 2 is a cutaway perspective view of the square plate center of the seismic isolator of FIG. 1 .
FIG. 3 is a cross-sectional view illustrating the cut region of FIG. 2 .
FIG. 4 is an exploded perspective view of the upper part of the seismic isolator of FIG. 1 ;
FIG. 5 is an exploded perspective view of the lower part of the seismic isolator of FIG. 1 .
6 and 7 are exploded perspective views of a vibration absorbing unit of the vibration isolator of FIG. 4 .
8A to 8D are cross-sectional views of the vibration absorber shown in FIGS. 6 and 7 .
9 is a perspective view showing the coupling state of the lower ball rolling plate, the upper corner block, and the connecting member shown in FIGS. 4 and 5 .
10 is a perspective view showing the coupling state of the lower cover plate and the lower ball rolling plate shown in FIG.
11 is an exploded perspective view for explaining the coupling of the lower ball rolling plate and the connecting member shown in FIG. 5 .
12 is a perspective view of a conventional vibration isolator to which a bolt transfer is applied.

Hereinafter, the configuration and operation of the present invention will be described in more detail with reference to the accompanying drawings showing preferred embodiments.

1 is a perspective view showing a seismic isolator according to an embodiment of the present invention. FIG. 2 is a cut-away perspective view of the square plates 110 and 210 cut through the center, FIG. 3 is a cross-sectional view showing the cut area of FIG. 2, FIG. 4 is an exploded perspective view of the upper part of the seismic isolator of FIG. 1, and FIG. It is an exploded perspective view of the lower part of the seismic isolator. 6 and 7 are exploded perspective views of the vibration absorbing unit. 8 is a cross-sectional view of a vibration absorber. 9 is a perspective view showing the coupling state of the lower ball rolling plate 500, the upper corner block 400, and the connecting member 700. As shown in FIG. 10 is a perspective view showing the coupling state of the lower cover plate 200 and the lower ball rolling plate 500. 11 is an exploded perspective view for explaining the coupling of the lower ball rolling plate and the connecting member 600 .

In the seismic isolator 1000 , a pair of main bodies 1100 are coupled, and a seismic isolating object such as a computerized rack is disposed thereon. The seismic isolator 1000 may be disposed on a raised floor. The seismic isolator 1000 includes an upper cover plate 100 for supporting a seismic isolating object, a lower cover plate 200 disposed on a floor or raised floor, and an upper cover plate 100 and a lower cover plate 200 disposed between the upper cover plate 100 and the lower cover plate 200 . It includes a vibration absorption unit 300 , an upper corner block 400 , a lower ball rolling plate 500 , a side bar 600 , and a connection member 700 .

The upper cover plate 100 and the lower cover plate 200 are formed in shapes corresponding to each other. The upper cover plate 100 and the lower cover plate 200 are a pair of square plates 110 and 210 supporting the feet of the seismic isolation object and a connection part 120 connecting a pair of square plates 110 and 210 ( 220), respectively. It is preferable that the connecting portions 120 and 220 are narrower in width than the square plates 110 and 210 .

It is preferable to apply a top-down ball caster to the vibration absorption unit 300 . As shown in FIGS. 6 to 8 , the vibration absorbing unit 300 includes a disk-shaped housing 310 , one or more ball casters 320 inserted and coupled to the housing 310 , and exposed of each of the ball casters 320 . It includes a brake pad 330 coupled to be in contact with the ball, and a shim plate coupled between the brake pad 330 and the ball caster 320 .

The ball caster 320 is coupled to the rolling ball 321, the case 323 for accommodating the rolling ball 321, the opening of the case 323, and the first exposed slot through which the rolling ball 321 is exposed is formed. and a base 322 . The case 323 is composed of a cylindrical space accommodating a plurality of bearing balls and a rolling ball 321 mounted on the bearing balls therein, and a disk ring-shaped flange extending outwardly from the open end of the space. The first base 322 is formed in the same disk shape as the outer diameter of the flange so that the first base 322 is coupled to the flange, and an exposure slot is formed so that one end of the rolling ball 321 is exposed to the outside to provide a rolling surface. do.

The housing 310 is formed in a disk shape of a corresponding diameter so that a set number of ball casters 320 can be coupled thereto. The thickness of the housing 310 is formed to correspond to the height of the case 323 of the ball caster 320 . A case insertion hole 311 is formed in the housing 310 so that the case 323 can be inserted. The case 323 is inserted into the case insertion hole 311, respectively. The housing 310 is coupled to the bottom surface concentrically with the center of the square plate 110 of the upper cover plate 100 . The housing 310 is preferably bolted to the bottom surface of the upper cover plate 100 .

The brake pad 330 extends inside the second base 331 and the second base 331 in the shape of a ring disk having the same inner and outer diameters as the flange, but has a smaller thickness than the second base 331 and extends from the bottom. The ball contact portion 332 is formed in a ring disk shape. Reference numeral 332a denotes a region in contact with the ball of the brake pad 330 .

The shim plate 340 is formed in a shape and size corresponding to the second base 331 to adjust the height of the brake pad 300 . By adjusting the thickness of the simple plate 340, the area 332a in contact with the ball of the ball contact part 332 of the brake pad 300 is in contact with the rolling ball 321 of the ball caster 320 to adjust the rolling. The contact amount and contact pressure with the ball 321 can be adjusted.

The coupling structure of the vibration absorbing unit 300 will be described with reference to FIGS. 6 to 8 . 6 and 7 are exploded perspective views showing the housing 310, the ball caster 320, and the brake pad 330, and FIGS. 8A and 8B are cross-sectional views showing the coupling state of the ball caster 320 and the brake pad 330. , FIGS. 8c and 8d are cross-sectional views showing a coupling state of the ball caster 320 , the brake pad 330 , and the simple plate 340 . As shown in FIG. 7 , the vibration absorbing unit 300 includes a housing 310 , a ball caster 320 on the bottom of the housing 310 , and a brake pad ( 321 ) on the exposed rolling ball 321 side of the ball caster 320 . 330) is combined. A bolt hole 312 is formed close to the case insertion hole 311 of the housing 310 , and a bolt hole 322a is formed in the first base 322 of the ball caster 320 at a position corresponding to the bolt hole 312 . ) is formed, a bolt hole 331a is formed at a position corresponding to the bolt hole 322a in the second base 331 of the brake pad 330 , and bolt holes 331a and 322a are formed in the simple plate 340 . A bolt hole 341 is formed at a position corresponding to . After assembling the housing 310, the ball caster 320, the simple plate 340, and the brake pad 330 so that the bolt holes 312, 322a, 341, and 331a formed at the corresponding positions match, one bolt (B) ) through the bolt holes (312, 322a, 341, 331a) at once and combine. The simple 340 may be omitted. When combined with one bolt (B) as described above, the ball contact area 342a is generated, so that when vibration occurs, the rolling ball 321 first contacts the ball contact area 342a and is caused by frictional force. vibration is reduced. The degree of vibration reduction force may be adjusted according to the contact amount or contact pressure of the ball contact region 342a. The amount of contact of the ball contact region 342a can be adjusted by adjusting the thickness of the simple plate 340 or according to the processing angle of the ball contact region 342a_ The material of the simple plate 340 is ductility, frictional force, wear resistance, etc. It is preferred to use this preferred aluminum, brass or alloy thereof.

The upper corner block 400 is disposed at each corner of the bottom surface of the pair of square plates 110 of the upper cover plate 100 . The upper corner block 400 is formed in an isosceles triangle in outline so as to have a size and shape corresponding to the corner of the square plate 110, and it is preferable that the surface toward the center of the square plate 110 is formed to be round. Each side corresponding to the isosceles side meeting the corner of the square plate 110 is cut inward to form a first insertion part 410 in the shape of a straight groove, and the first insertion part 410 has a first insert of a set size inward. One or more insertion grooves 411 are formed. The upper corner block 400 is coupled to the upper cover plate 100 by bolts.

The lower ball rolling plate 500 is disposed on the upper surface of the pair of square plates 210 of the lower cover plate 200 . The lower ball rolling plate 500 is formed to have a square plate-shaped contour corresponding to the square plate 210 as shown in FIGS. 2 and 3 . In the central region of the upper surface of the lower ball rolling plate 500, a horizontal circular circular horizontal section 510 in which the rolling ball 321 of the ball caster 320 rolls is formed on the upper surface, and extends from the outer diameter of the circular horizontal section 510 However, a donut-shaped gradient section 520 is formed to be inclined so that the thickness becomes thicker. When a gradient section 520 having a circular outer diameter is formed on the upper surface of the lower ball rolling plate 500 having a rectangular plate-shaped profile, a corner region thicker than the gradient section 520 is left outside of the gradient section 520 . As for the cross section of the lower ball rolling board 500 , the horizontal section 510 has the smallest thickness, the gradient section 520 becomes thicker at the outer diameter of the horizontal section 510 , and the corner area becomes the thickest. The corner area has a shape corresponding to the upper corner block 400 . The second insertion part 530 is formed in a shape corresponding to the position corresponding to the first insertion part 410 on the isosceles side of the corner of the corner area, and has a shape corresponding to the position corresponding to the first insertion groove 411. A second insertion groove 531 is formed.

The side bar 600a is a pair of corner couplings coupled to each of the adjacent first insertion parts 410 of the upper corner block 400 disposed on a pair of square plates 110 spaced apart from each other with the connection part 120 interposed therebetween. It includes a connector 620a for connecting the portion 610a and the pair of corner coupling portions 610a. The corner coupling portion 610a is formed in '┛' and '┗' shapes. The side bar 600b is a pair of corner coupling parts coupled to each of the second insertion parts 530 of the lower ball rolling plate 500 disposed on a pair of square plates 210 spaced apart from each other with the connection part 220 interposed therebetween. 610b) and a connector 620b for connecting the pair of corner coupling portions 610b. The side bars 600a 600b are preferably formed in the same shape as each other. Insertion holes 611a and b are respectively formed in the corner coupling portions 610a and b to be inserted and fixed in the first insertion groove 411 and the second insertion groove 531, respectively.

The connecting members 700a and b are members connecting a pair of adjacent seismic isolator main bodies 1100 and are respectively coupled to the upper corner block 400 and the lower ball rolling plate 500 . The connecting members 700a and b are coupled to adjacent corners of each of the square plates 110.210 of the pair of adjacent seismic isolator bodies 1100 . The connecting members 700a and b connect the first insertion portion 410 and the second corner coupling portions 710a and b corresponding to the second insertion portion 530 and a pair of second corner coupling portions 710a.b. It is composed of second connectors 720a and b that are respectively connected to each other. The lengths of the second connectors 720a and b may be adjusted according to the distance between the main bodies 1100 . An insertion hole is not formed on the side coupled to the pair of opposing first insertion part 410 and the second insertion part 530, and coupled to the first insertion part 410 and the second insertion part 530 of the outer surface. Insertion holes 711a and b are formed on the sides, respectively, so that when the seismic isolator 1000 is installed, it is possible to facilitate coupling of the connection members 700a and b.

1000: seismic isolator 1100: seismic isolator body
100: upper cover plate 110: square plate
120: connection part 200: lower cover plate
210: square plate 220: connection part
300: vibration absorption unit 310: housing
311: case insertion hole 312: bolt hole
320: ball caster 321: rolling ball
322: first base 322a: bolt hole
323 : case
330: brake pad 331: second base
331a: bolt hole 332: ball contact part
340: simple 341: bolt ball
400: upper corner block
500: lower ball cloud plate
600: side bar
700: connecting member

Claims (7)

an upper cover plate comprising a pair of square plates for supporting the feet of the seismic isolation object, and a connection part for connecting the pair of square plates;
a lower cover plate comprising a square plate and a connecting portion corresponding to the upper cover plate and positioned on a lower surface of the upper cover plate;
A housing formed in the shape of a disk and coupled to the center bottom surface of the square plate of the upper cover plate, one or more top-down ball casters inserted and coupled to the housing, an inner diameter equal to or smaller than the exposed slot through which the rolling balls of the ball caster are exposed a vibration absorbing part including a brake pad having a ring disc shape coupled to be in contact with the rolling ball exposed of the ball caster, including a ball contact part; and
Having a rectangular plate-shaped contour, a horizontal circular horizontal section is formed in the central region of the upper surface, and the gradient section is formed to extend from the outer diameter of the horizontal section, and the gradient section is formed to become thicker as it goes outward, and the lower cover plate and a lower ball rolling plate coupled to the upper surface of the square plate of the ball caster to roll the rolling ball of the ball caster in the horizontal section,
The ball caster includes the rolling ball, a case for accommodating the rolling ball, and a first base coupled to the opening of the case and having an exposed slot through which the rolling ball is exposed, the case having a cylindrical space and the Consists of a disk ring-shaped flange extending to the outside of the opening end of the space, the first base is formed in the same disk shape as the outer diameter of the flange is coupled to the flange,
The brake pad includes a second base of a ring disk shape having the same inner diameter and outer diameter as the flange, and the ball extending inside the second base and extending from the bottom to have a smaller thickness than the second base to form a ring disk shape Consists of a contact
It is formed in a shape and size corresponding to the second base, is coupled between the brake pad and the first base of the ball caster, and by adjusting the thickness, the ball contact portion of the brake pad is connected to the rolling ball of the ball caster. Minimum height structure having a ball caster, characterized in that it further comprises a simple plate for adjusting the contact height and the contact amount and contact pressure of the rolling ball and the area in contact with the rolling ball of the ball contact portion by adjusting the contact height isolator. delete The method of claim 1,
The outline is formed in an isosceles triangle so as to have a size and shape corresponding to each corner of the square plate of the upper cover plate, the surface facing the center of the square plate is formed to be round, and on the isosceles side that meets the corner of the square plate An upper corner block in which a first insertion part of a straight groove shape cut inward is formed on each corresponding surface, and at least one first insertion groove of a set size is formed in the first insertion part perpendicularly to the side inward. and wherein the upper corner block is coupled to each corner of the bottom surface of the square plate of the upper cover plate. 4. The method of claim 3,
The lower ball rolling plate has a square contour corresponding to the square plate of the lower cover plate, is coupled to the upper surface of the square plate, and has a corner area of a shape corresponding to the upper corner block having a larger thickness than the gradient section outside the slope section is formed, and a second insertion part is formed on an isosceles side of the corner of the corner region in a shape corresponding to a position corresponding to the first insertion part, and a second insertion part is formed in a shape corresponding to a position corresponding to the first insertion groove. A vibration isolator having a minimum height structure having a ball caster, characterized in that a groove is formed. 5. The method of claim 4,
Further comprising a connecting member for connecting a pair of the main body consisting of the upper cover plate, the lower cover plate, the vibration absorbing part and the lower ball rolling plate,
The connecting member is a pair of second corner coupling parts of a corresponding shape to be inserted into the first insertion part of the neighboring upper corner block of the neighboring pair of the main body or the second insertion part of the neighboring lower ball rolling plate. A seismic isolator having a minimum height structure having a ball caster comprising a second connector for connecting a pair of second corner coupling parts. 5. The method of claim 4,
The first insertion part of the upper corner block disposed on the pair of square plates spaced apart from each other with the connection part of the upper cover plate and the lower cover plate interposed between the first insertion part or the corner area of the lower ball rolling plate. A pair of corner coupling parts coupled to each of the second insertion parts and a connector connecting the pair of corner coupling parts, wherein the corner coupling part further includes a side bar formed in '┛' and '┗' shapes. A seismic isolator having a minimum height structure with delete

Images