KR101295932B1 - Connect panel support with support curve for retnforcement device - Google Patents

Abstract

PURPOSE: An earthquake-proof reinforcing device for reinforcing a pillar by connecting the pillars of a dual floor with a curved or polygonal reinforcing bar is provided to minimize the shake of the pillar by dispersing the vertical and horizontal power transmitted to the pillars when an earthquake is generated. CONSTITUTION: An earthquake-proof reinforcing device for reinforcing a pillar by connecting the pillars of a dual floor with a curved or polygonal reinforcing bar comprises an upper horizontal support bar (10), a lower horizontal support bar (20), a reinforcing bar, and an adapter (90). The upper horizontal support bar and the lower horizontal support bar are horizontally connected to the upper part and the lower part of a pillar (120) and a pillar (130). The reinforcing bar is formed in a circular reinforcing bar (30), an ellipse reinforcing bar, or a polygonal reinforcing bar and reinforces the pillar by being installed inside the pillar. The adapter is individually formed on the center of the pillar, the upper horizontal support bar, and the lower horizontal support bar.

Description

Seismic reinforcement device for reinforcing the strut by connecting the strut of the double ridge and the strut with a curved or polygonal reinforcement {Connect panel support with support curve for Retnforcement device}

The present invention relates to a reinforcing device for reinforcing the support by connecting the double floor support and the support with a curved or polygonal reinforcement, and more preferably, in the field of information and communication and electrical field, a computer room, an electrical room, a semiconductor equipment room In the general office, the double flooring is used in consideration of the smooth movement of piping and wiring, and the aesthetics and the movement of cold wind. Since the floors of the double floor are independently installed, they are vulnerable to earthquakes. It is to prevent the fall of the enclosure and the raised floor installed on the panel top of the raised floor by minimizing the shaking by reinforcing the strut from the earthquake by connecting the reinforcement.

The double floor is proposed to secure more comfortable and efficient office space in the information age where the use of computers is increasing. The double floor is used to connect cables, power lines, and wires that connect various electronic devices such as offices, computer rooms, and research labs. It can be located at the bottom to clean up the office space.

Conventional buildings and offices have used small molds to protect telephone lines, electric wires, cables, etc., but this method is difficult to manage because small molds are cluttered in office spaces, and the problem of discomfort and aesthetics and when users move. There was a problem that the foot tripped over the mold, and more and more molds had to be used as the office became wider. There was a separate issue.

Proposed to solve the above problems is the raised floor, which has a space of a certain height on the flat floor surface to form one more floor, the power line, telephone line, cable, etc. in the space formed on the floor and the raised floor It is arranged, and if necessary to open and close the floor made of a structure that can be rearranged cables.

The types of double floors currently used are classified into steel wood composite type, wood type, iron type, aluminum type, etc., depending on the material of the panel.

The wood type maintains the unique walking sense of wood, has excellent sound absorption, and reduces vibration and noise.

The upper and lower panels are all made of steel, and the lower panel is of dynamic structure, which is excellent in strength.In some cases, the steel cement panel is filled with concrete between the upper and lower steel plates to increase the effect of dustproof and soundproofing and to prevent deformation. In some cases,

Aluminum type is a panel made of high purity aluminum alloy and is a lightweight panel with excellent corrosion resistance and durability. Especially, it is mainly used in semiconductor factories, precision measuring rooms, and clean rooms that require aseptic and electrostatic conductivity and precision, but it is expensive. There is this.

Composite type was developed to make up for the shortcomings of steel type and to make the best use of its advantages. Its usage is increasing by satisfying the load resistance and solidity while maintaining the peculiar walkability of wood. It is improved and applied to various environments.

The installation of the raised floor as above is usually made in a way to form a space for telephone lines, electric wires, cables, etc. by installing on a space of 30 ~ 90cm from the bottom surface, the conventional double floor is a plurality of struts individually in the installation place After standing up and fixing, use the method of placing the above-mentioned panel on the fixed support.

At this time, the upper panel disposed on the support is not very supportive because each support is not connected, and if a part of the support is broken or out of position, the risk of injury to the user due to the top panel is reversed or out of position Larger, there was a problem that additional costs of repurchase and reconstruction due to breakage of the displaced upper panel.

That is, the upper panel is disposed in the form of the upper portion of the support, there is a problem that the support is deformed by the shock and vibration transmitted through the upper panel, especially when an earthquake occurs very large impact and Vibration is transmitted to the support, in which the support is independently installed and is easily collapsed. There is a problem in that the enclosure seated on the upper panel is damaged while the upper panel disposed on the top of the collapsed support is inverted.

Thus, the necessity of the landlord reinforcement is emerging, which is proved in the earthquake disaster law.

Thus, the "reinforcement access floor" of Patent No. 10-0750338, which was developed to reinforce struts independently installed to support the raised floor from earthquakes, has one end connected to each of the shores and the other end connected to a floor slab or an adjacent shore. Although it consists of the structure of fixing the reinforcing reinforcement, when the reinforcing reinforcement is reinforced by connecting the support and the support horizontally, the contact area of the end of the reinforcement is not only weak to strengthen the support, but also of the brace type mounted on the floor Since the support is fixed by drilling the floor with anchors, not only does it adversely affect the equipment to be protected due to vibration, noise, and dust generated during anchoring, but also damages the cables installed on the raised floor when anchoring in a narrow space. There was a problem. In addition, the structure supported by the diagonal line is a structure that can not be used in the place where the cable tray is more than 30cm is installed in consideration of the width of the general double-floor strut and 60cm or less. For this reason, in the patent, the cable tray section can only reinforce horizontally, which is an inevitable damage due to the extremely poor props of the portion where the cable tray passes when a real earthquake occurs.

The present invention has been created to solve the above problems, in order to prepare for an earthquake by reinforcing the struts more strongly in the raised floor, when installing a non-stressed reinforcement device, various problems and cables generated while doing the anchoring work It aims to improve the inconvenience of process such as tray section application.

That is, the present invention is connected to the struts and the struts formed by an arc or polygonal reinforcement in order to protect the strut supporting the upper panel on which the enclosure is mounted independently of the horizontal and vertical to be delivered to the strut when the earthquake occurs It aims to minimize the shaking of the props by dispersing the force.

In addition, the present invention is characterized in that the cable tray section to minimize the operation of drilling the floor by drilling to fix the anchor to the floor by fixing to be integral with the adapter to fix the reinforcement to connect the support and the support to each other reinforcement It has a feature applicable to.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

As shown in the figure, the support 120 for seating the enclosure 200 and supporting the upper panel 110 of the raised floor 100 is formed so that pipes or wires can be installed on the slab (ground) 300. In order to protect the post 130 from the earthquake, the upper horizontal support 10 and the lower horizontal support 20 horizontally formed by combining with the adapter 90 formed on the upper and lower ends of the support 120 and the support 130, respectively. Wow,

The support 120 is formed in any one of the support 120, the support 130, the upper horizontal support 10, the lower horizontal support 20, elliptical reinforcement 40, or arc-shaped reinforcement 50 ) Or polygon reinforcement 60,

The support 120, the support 130, the upper horizontal support 10, the lower horizontal support 20 comprises an adapter 90 formed in each of the central portion,

The apex 30a of the circular reinforcement 30 is formed in any one of the support 120, the support 130, the upper horizontal support 10, the lower horizontal support 20, or the vertex of the elliptical reinforcement 40 40a or the support 120, the support 130, the upper horizontal support 10, and the lower horizontal contacting the vertices 50a and the both ends 50b or the polygon reinforcement 60 of the arc-shaped reinforcement 50. The center portion 60a, which is the contact surface of the support 20, is fixed to the adapter 90 formed on the support 120, the support 130, the upper horizontal support 10, the horizontal reinforcement 70, and the lower horizontal support 20, respectively. It is characterized in that it is configured to reinforce the holding (120, 130).

Effects of the present invention having the above configuration occurs as follows.

As mentioned in the prior art, when working to reinforce the support for supporting the upper panel seating the enclosure, the anchoring operation causes problems such as vibration and noise, dust, building damage, etc. In addition to many difficulties, sensitive enclosures could cause problems in operation due to vibration and dust during anchor work.

Therefore, when the configuration of the present invention is used, the anchorage can be easily reinforced by fixing the reinforcing bar to the adapter instead of the anchoring work as in the prior art when the reinforcing work is carried out. Will be reduced.

In addition, by forming a curved or polygonal structure of the strut reinforcement, it is possible to cope with not only horizontal impact but also vertical impact.

In addition, by installing a reinforcing rod between the support and the support can be installed without the anchor work, it can be easily applied to the raised floor because it is formed in a structure that can be installed even if there is a cable tray.

1 is a side view showing a state of reinforcing props with a circular reinforcement according to the present invention,
Figure 2 is a side view showing a state to reinforce the strut with an elliptical reinforcement according to the present invention,
Figure 3 is a side view showing a state of reinforcing the strut with an arc-shaped reinforcement according to the present invention,
Figure 4 is a side view showing another configuration to reinforce the strut with arc-shaped reinforcement according to the present invention,
Figure 5 is a side view showing another configuration for reinforcing the strut with arc-shaped reinforcement according to the present invention,
6 is a side view showing a state of reinforcing the struts according to the polygon reinforcement according to the present invention,
Figures 7a, 7b, 7c, 7d, 7e is a side view showing a state for reinforcing props according to the brace reinforcement according to the present invention.

Next, the posts and pillars of the raised floor according to the present invention arc or A preferred embodiment of the reinforcing device for reinforcing the support by connecting the reinforcement of the polygon will be described in detail with reference to the drawings.

Embodiments described below are shown by way of example to effectively show the preferred embodiment of the present invention that can be applied to reinforcement of the raised floor, and should not be construed to limit the scope of the present invention.

The configuration for reinforcing the double floor strut on which the housing of the present invention is seated will be described in more detail with reference to the accompanying drawings.

As shown in FIG. 1, the raised floor 100 on which the enclosure 200 is seated is installed on the floor slab 300 of a computer, a semiconductor equipment room, a general office, and the like, without installing additional piping or an electric wire tray. An upper panel 110 for seating an enclosure to enable centralized coordination of electric wires, communication lines, and main equipment through the floor, and a post that is independently installed on the floor slab 300 to support the upper panel 110. It consists of 120 and 130. For the explanation of the present invention, the support posts are designated by only two support posts, and the support posts are not limited thereto.

And in order to prevent the propagation of the struts 120 and 130 due to the shock caused by the vibration, such as earthquake, the reinforcement according to the present invention to reinforce the struts 120 and 130 is a circular reinforcement 30, elliptical reinforcement 40 is formed of an arc-shaped reinforcing bar 50, a multi-tight reinforcing bar 60 is installed in the support 120 and the support 130 is configured to reinforce the support from the vibration caused by the earthquake.

That is, as shown in FIG. 1, a circular reinforcing bar 30 having a reinforcing bar reinforcing the posts 120 and 130 is formed in a circular shape, and the circular reinforcing bar 30 is supported by the support 120 and the support 130. First, the upper horizontal support 10 and the lower horizontal support 20 are horizontally connected to the upper and lower ends of the support 120 and the support 130 so that they can be fixedly installed without anchoring therebetween. And the support 120, the support 130, the upper horizontal support 10, and the lower horizontal support 20 is configured to be mounted on the adapter (90).

And the support 120, the support 130, the upper horizontal support (10), by mounting a circular reinforcement (30) inside the lower horizontal support 20, the support (120), support (130). The upper horizontal support 10, the lower horizontal support 20 is fixed by connecting the vertices 30a of the circular reinforcement 30 in contact with the adapter 90 is formed with fasteners. The central portion of the pillars 120 and 130 refers to the "center portion of the adapter 90 and the adapter 90, respectively formed on the upper and lower portions of the column (120, 130).

The circular reinforcing bar 30 may be formed in a circle formed integrally, but the two ends of the two arc-shaped reinforcing bars 31, 32 symmetrically separated by the same diameter according to the site conditions to the adapter 90 It can also be connected to form a circle.

Therefore, the load applied from the upper panel 110 is to reinforce the vertical load by distributing the load to both sides in the upper portion of the circular reinforcement 30, and when the vibration is applied to the floor slab 300, such as earthquake, the lower horizontal support ( 20 is distributed to both sides of the vertex 30a, which is the contact surface of the circular reinforcement 30 in contact with the lower horizontal support (200), and even if the vibration is applied horizontally to the support (120) and the support (130) Reinforces the props being conducted because the vibrations are distributed to both sides of the vertex 30a, which is the contact surface of the circular reinforcement 30 in contact with the support 120 and the support 130, without being directly applied to the support or vibration. It is a configuration made.

Another embodiment of the present invention shown in Figure 2 is to supplement the circular reinforcing rod 30 of the above-described embodiment, if the support 120 and the support 130 is installed at a wide interval, the circular reinforcing bar 30 having the same diameter Since it is not possible to install the horizontal, longer than the vertical length, that is to say that the diameter of the elliptical reinforcement table 40 different from each other, as in the above-described embodiment, the support 120, the support 130, the upper horizontal support (10), The elliptical reinforcement 40 is installed inside the lower horizontal support 20, and the support 120 and the support 130 and the upper horizontal support 10 and the lower horizontal support 20 of the elliptical reinforcement 40 By connecting and fixing the vertex 40a to the adapter 90, even when the vibration caused by the earthquake is transmitted to the prop, the vibration is distributed to both sides of the support and the prop is reinforced.

As another embodiment of the present invention shown in Figure 3, the support pillars 102 and 130 are installed in two stages on the upper and lower arcuate reinforcement table 50 inside the support column (130) 130 is vibrated It is configured to prevent the conduction from falling as well as to reinforce the load on the upper panel.

That is, the support 120 and the support which are the central portion in the upper horizontal support 10 and the lower horizontal support 20 so that the arc-shaped reinforcement 50 can be installed in two stages between the support 120 and the support 130. A horizontal reinforcing bar 70 is further configured at the central portion of the 130 to connect both ends of the horizontal reinforcing bar 70 to the adapter 90 so as to be fixed, and the support 120, the support 130, and the upper horizontal supporter ( 10), the arc-shaped reinforcing bar 50 is formed vertically in the interior of the horizontal reinforcement 70, and also inside the support 120, the support 120, the horizontal reinforcement 70, the lower horizontal support 20 The support 120, the support 130, the upper horizontal support 10, the lower horizontal support 20, the horizontal reinforcing bar 70 and the circular reinforcing bar 50 are in contact with each other by vertically forming the arc reinforcing bar 50. The vertex 50a and both ends 50b are connected to the supporter 120 formed at the central and lower ends of the supporter 120 and the supporter 130 to be integrally fixed, and the upper horizontal supporter 10 and the horizontal beams are fixed. About 70, is connected to the adapter (90) formed in the lower horizontal support 20 fixed integrally configured.

In this case, if necessary, the lower horizontal support 20 may not be used.

Therefore, the present invention will facilitate the movement of the cable tray.

As described above, the arc-shaped reinforcing bar 50 can be laminated and configured in two sets. However, as shown in FIG. 4, the arc-shaped reinforcing bar 50 can be configured by only one set, depending on the site conditions. The upper horizontal support 10 supporting the 120 and the support 130 is moved up and down and fixed at a predetermined position, and the support 120, the support 130, the upper horizontal support 10 and the lower horizontal support 20 ) Arcuate reinforcing bar 50 having a different diameter in the inside of the vertical), and the vertex 50a and both ends 50b to which the arcuate reinforcing bar 50 contacts, the lower ends of the support 120 and the support 130. It is connected to the adapter 90 formed in the fixed and at the same time configured to be connected to the adapter 90 formed in the center of the upper horizontal support (10). In this case, if necessary, the lower horizontal support 20 may not be used. Therefore, this method will facilitate the movement of the cable tray.

The present invention configured as described above also immediately vibrates or vertical loads on both ends of the arcuate reinforcement 50 in contact with the upper horizontal support even if vibration is applied to the support 120 and 130 horizontally or vertically. It is a structure that prevents the props from falling down by dispersing it.

As another embodiment of the present invention shown in Figure 5, the upper horizontal support 10 for supporting between the support 120 and the support 130 is moved up and down and fixed to a fixed position, the upper horizontal support 10 And two circular arc reinforcing bars 50, 50 'are installed horizontally symmetrically with each other in the interior of the lower horizontal support 20, and the upper horizontal support 10, the lower horizontal support 10, the support 120, Abutments 50a, 50a 'and both ends 50b, 50b', which are the contact surfaces of the arc-shaped reinforcement bars 50, 50 ', which are in contact with the support 130, are formed on the support 120 and the central portion of the support 130. The adapter 90 formed in the upper horizontal support 10, the lower horizontal support 20 is configured to be fixed by connecting to the adapter 90 formed at intervals (L) at the center, respectively. Therefore, the struts 102 and 130 are configured to prevent conduction from vibration and to reinforce the load applied to the upper panel.

As another embodiment of the present invention shown in Figure 6, strut 120. The support 130, the upper horizontal support 10, the lower horizontal support 20 is installed inside the polygonal reinforcement formed of octagonal octagonal to protect the support 120 and 130 from vibration as well as the upper panel ( It is also configured to reinforce the vertical load applied to 110).

That is, the support 120, the support 130, the upper horizontal support 10, the lower horizontal support 20 can be installed in the polygon reinforcement 60 is manufactured. At this time, the polygon reinforcement 60 is preferably formed in an octagon, but is not limited to this, it is installed in the interior of the support 120 and the support 130, the upper horizontal support 10 and the lower horizontal support 20. Any shape that can be used is possible.

The manufactured polygon reinforcement 60 is installed in the support 120, the support 130, the upper horizontal support 10, the lower horizontal support 20, the support 120, the support 130, the upper horizontal support 10, the central portion (60a) of the contact surface of the polygon support 60 in contact with the lower horizontal support 20 of the support 120, the support 130, the upper horizontal support (10), the lower horizontal support (20) Connected to the adapter 90 mounted in the center portion and fixed integrally. In this case, the upper horizontal support 10 can be moved up and down to horizontally support the support 120 and the support 130.

Therefore, as in the above-described embodiments, the vibration is transmitted horizontally and vertically to the support by an earthquake, and the vibration is distributed along the surface formed diagonally on both sides, thereby preventing the transmission of the vibration directly to the support so that the support is conducted by the vibration. This is to prevent the configuration.

As described above, the arc-shaped reinforcing bar 50 or the polygonal reinforcing bar 60 is connected by the adapter 90, so that the anchoring work is not performed during the adapter reinforcing work, but the minimum anchoring work can be performed according to the site conditions.

In addition, the arc-shaped and polygonal reinforcing rod may be manufactured in one piece, but after the arc-shaped and polygonal symmetrically separated into 1/2 according to the installation environment, the two ends can be connected to each other by an adapter.

7A, 7B, 7C, 7D, and 7E, the support 120 is mounted on the support 120 for seating and supporting the enclosure 200 on the upper portion of the upper panel 110 constituting the raised floor 100. In order to further reinforce the slab 300 diagonally in the upper end of the support 120 and the support 120 in the center of the support 120 is installed configuration.

That is, when the reinforcing reinforcement 80 is installed diagonally by connecting to the support 120, the vertical load applied to the support for supporting the upper panel is distributed to the reinforcing reinforcement 80, as well as the vibration and impact applied horizontally. The back can also be distributed laterally to reinforce the props from conducting from vibration. The present invention as described above may be an effective method when reinforcing only the part where the double floor is installed.

When the combination of the above-described configuration is used according to the raised floor site, the anchoring work is unnecessary or minimized, and the cable tray can be easily applied.

Although the present invention having been described above has been described with reference to a limited number of embodiments, it is to be understood that the present invention is not limited thereto and that various changes and modifications may be made without departing from the spirit and scope of the present invention by those skilled in the art. Various modifications and variations are possible within the scope of the appended claims.

10. Upper horizontal support 20. Lower horizontal support
30. Round reinforcement rod 40. Elliptical reinforcement rod
50, 50 '. Circular reinforcement rod 60. Polygon reinforcement rod
70. Horizontal reinforcement 80. Bracing reinforcement
90. Adapter 100. Double floor
110. Top panels 120, 130
200. Enclosure 300. Slab (ground)

Claims (6)

Protect the strut 120 and the strut 130 supporting the upper panel 110 of the raised floor 100 to seat the enclosure 200 and to install pipes or wires on the slab (ground) 300 from earthquakes. In order to combine with the adapter 90 formed on the upper and lower ends of the support 120 and the support 130, respectively, the upper horizontal support 10 and the lower horizontal support 20,
The support 120 is formed in any one of the support 120, the support 130, the upper horizontal support 10, the lower horizontal support 20, elliptical reinforcement 40, or arc-shaped reinforcement 50 ) Or polygon reinforcement 60,
The support 120, the support 130, the upper horizontal support 10, the lower horizontal support 20 comprises an adapter 90 formed in each of the central portion,
The apex 30a of the circular reinforcement 30 is formed in any one of the support 120, the support 130, the upper horizontal support 10, the lower horizontal support 20, or the vertex of the elliptical reinforcement 40 40a or the support 120, the support 130, the upper horizontal support 10, and the lower horizontal contacting the vertices 50a and the both ends 50b or the polygon reinforcement 60 of the arc-shaped reinforcement 50. The center portion 60a, which is the contact surface of the support 20, is fixed to the adapter 90 formed on the support 120, the support 130, the upper horizontal support 10, the horizontal reinforcement 70, and the lower horizontal support 20, respectively. Seismic reinforcement device for reinforcing the struts by connecting the struts and struts of the double ridge, characterized in that configured to reinforce the struts 120, 130 so as to reinforce the curve or polygon. The method of claim 1,
In order to reinforce the support 120 for supporting the upper panel 110 on which the enclosure 200 is seated, the prop reinforcing bar 80 is diagonally added to the upper end of the support 120 and the center of the support 120 diagonally. A seismic reinforcement device for reinforcing the struts by connecting the struts of the double ridge and the struts with a curved or polygonal reinforcement. The method of claim 1,
The circular reinforcing bar 30, elliptical reinforcing bar 40, arc-shaped reinforcing bar (50), polygonal reinforcing bar (60) may be produced in one piece, respectively, depending on the installation environment, the symmetrical separation of the circular, oval, polygon polygon Seismic reinforcement device for reinforcing the struts by connecting the struts and struts of the raised floor, characterized in that the end is connected to each other by the adapter (90) with a curved or polygonal reinforcement. The method of claim 1,
The adapter 90 for fixing the circular reinforcement 30, elliptical reinforcement 40, arc-shaped reinforcement 50, polygon reinforcement 60, respectively, is fastened to be integral with the fastener by bending the support (120) (130) A seismic reinforcement device for reinforcing the struts by connecting the struts and the struts of the double ridge with a curved or polygonal reinforcement. The central part of the support 120 and the support 130 supporting the upper panel 110 of the raised floor 100 formed to seat the enclosure 200 and install pipes or wires on the slab (ground) 300 horizontally. Horizontal reinforcing bar 70 is formed in the central portion of the upper horizontal support 10 and the lower horizontal support 20 to connect to the support 120, the horizontal reinforcement 70 is mounted to the support (130) Connect both ends of the
Inside the support 120, the support 130, the upper horizontal support 10, the horizontal reinforcement 70 and the support 120, the support 130, the horizontal reinforcement 70, the lower horizontal support 20 The central vertex 50a and both ends 50b of the arc-shaped reinforcement 50 mounted therein are supported by the support 120 and the central and lower portions of the support 130 and the upper horizontal support 10 and the horizontal reinforcement 70. Seismic reinforcement for reinforcing the struts by connecting the struts and the struts of the double ridge with a curved or polygonal reinforcement, which are configured to be fixed to the adapters 90 respectively formed in the central portion to reinforce the struts 120 and 130. Device. A support 120, a support 130, and an upper horizontal support for supporting the upper panel 110 of the raised floor 100 formed to seat the enclosure 200 and install pipes or wires on the slab (ground) 300. 10, the strut 120 and the strut in contact with the vertices 50a, 50a 'of the center of each of the two horizontally mounted arc-shaped reinforcement 50 symmetrically inside the lower horizontal support 20 The contact surface of 130 is fixed to the supporter 120 and the adapter 90 mounted on the supporter 130, respectively,
In addition, both ends 50b of the arc-shaped reinforcement support 50 are fixedly connected to the adapters 90 formed at intervals L at the centers of the upper horizontal support 10 and the lower horizontal support 20, respectively, to support 120 ) 130, seismic reinforcement for reinforcing the struts by connecting the struts and struts of the double ridge, characterized in that configured to reinforce the curved or polygonal reinforcement.

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