KR20160000639U - free access floor for building - Google Patents

Abstract

The present invention relates to an access floor for a building used as a floor plate in an advanced building, an office building, and an information building,
The double bottom plate 1 installed on the floor of the building constitutes a hollow portion 4 by being combined with the upper plate 2 and the lower plate 3 and the upper plate 2 and the lower plate 3 Each of which is made of a steel panel and the tip end portion of the edge wedge 10 of the upper plate 2 is doubly bent to form the double bending vertical wedge 12 in the vertical direction, 3 and the edge wing 10 of the upper plate 2 is formed with an embossing burring as a binding portion 11 to form the hole 9 and the edge 9 of the upper plate 2, The vertical bending jig (Q) is further extended to the edge wing (8) of the lower plate (3) and the double bending vertical wing (12) of the upper plate (2) So as to maximize the supporting force against the concentrated load.
The present invention as described above can improve the structure of the periphery edge (i.e., displacement part), which is the weakest part of the concentrated load in the double bottom plate, so that the concentrated load (concentrated load) ), Thereby reducing the thickness of the steel panel of the upper and lower plates, thereby reducing the load on the building and reducing the production cost, thereby contributing to the enhancement of competitiveness in enterprise operation and saving resources.

Description

Building access flooring {free access floor for building}

The present invention relates to an access floor for a building used as a floor plate in an advanced building, an office building, an information building, and the like, and more particularly to an access floor for a building, To an access floor for a building which is capable of withstanding a greater load than the access floor of Korean Registered Patent Registration No. 10-1118643.

In general, in the present invention, the double bottom floor is a so-called free access floor (sometimes referred to as an "access floor") or an OA floor, Cables and the like are easily wired to provide aesthetically pleasing appearance and to allow the indoor space to be utilized properly.

That is, as shown in FIG. 11, a double bottom plate (Access Floor) is constructed with a support base S on a building floor F such as an office, and a finish material C such as a carpet is laid on the access floor.

When the above-mentioned access floor is installed, a passage space is formed by a predetermined height, and a communication cable or an electric wire can be arranged in this space.

The access floor, which is conveniently used as described above, is entirely made of steel, and is composed of an upper plate 100 and a lower plate 200.

However, the double bottom plate should have a concentrated load of at least 3,000N when the internal load is R type and KSF 4760 should have a concentrated load of more than 5,000N. When measuring the load, The edge portion (i.e., the displacement portion) is not less than the above-mentioned load resistance.

In order to satisfy such a condition, the thickness of the upper plate 100 and the lower plate 200 made of steel, which constitute a double bottom plate, should be at least 1 to 1.4 mm, respectively.

In this case, as the raw material value of steel is increased, the cost of production is increased, which is a great burden to the operation of the enterprise.

The access floor, which is composed of the upper plate 100 and the lower plate 200, is in a hollow state when the access floor is hollow. Therefore, in a state in which the access floor is installed on the building floor F When walking, resonance phenomenon [Resonance Phenomena; Resonance phenomenon (resonance phenomenon)] occurred.

Further, there was a problem that the bearing capacity which can withstand the concentrated load of the peripheral edge is lowered.

In this case, when the access floor is installed in all directions and the impact is applied to the periphery, or a heavy office equipment, a book or furniture or the like is subjected to a load for a long time, the peripheral edge ) Is depressed or broken.

This phenomenon occurs not only in the above-mentioned hollow type of access floor but also in products in which concrete is injected into the hollow floor of the access floor.

In order to solve the above problems, the present applicant (inventor) filed a patent application under the name of "double floorboard for building" in the Korean Intellectual Property Office and registered as patent No. 10-1118643 (Korean Registered Patent Publication No. 10-1118643 (2012). (Hereinafter referred to as 'pre-registration').

That is, the line registration design is designed to minimize the thickness of steel panels constituting the upper and lower plates constituting the access floor, It is possible to reduce the production cost by constructing a built-in interior material, and the resonance phenomenon [Resonance Phenomena; And the edge structure of the access floor has been improved to maximize the bearing capacity against the concentrated load.

This line registration design prevents the phenomenon that the edge part of the double bottom plate is impacted or the peripheral part is not recessed even when the heavy equipment such as office equipment, bookshelves or furniture is loaded for a long time. can do.

That is, a plurality of reinforcing support protrusions and edge portions of the upper edge of the upper plate are doubly bent at the peripheral edge of the double bottom plate to form a double bending vertical wing in the vertical direction, so that the concentrated load It is possible to maximize the bearing capacity.

In addition, when the thickness of the steel panel of the upper and lower plates is minimized and the wood in which the waste material is recycled is built in as an interior material in the hollow portion, the bearing capacity required for the double bottom plate is maximized It can be manufactured and used at an extremely low cost, thereby maximizing its competitiveness.

However, when a higher concentrated load is required on the edge of the double bottom plate (ie, the displaced portion), the thickness of the upper and lower steel panels may be increased again, It is necessary to increase the thickness of the packing as well as to increase the thickness of the steel.

As a result, the cost of raw materials and wood of steel is increased, which increases the cost of operation.

Korean Registered Patent Publication No. 10-1118643 (Announcement of Mar. 09, 2012)

Accordingly, the present invention is conceived to solve the above-mentioned problems, and the object of the present invention is to provide a double bottom plate (registered trademark) of Korean Registered Patent Publication No. 10-1118643 (hereinafter referred to as " the present invention provides a building access floor capable of reinforcing the edge structure of the floor to withstand a greater concentrated load.

The double bottom plate 1 installed on the floor of a building is constituted by a top plate 2 and a bottom plate 3 to constitute a hollow portion 4,

The top plate 2 and the bottom plate 3 are each made of a steel panel and the tip of the edge wedge 10 of the top plate 2 is doubly bent to form the double bending vertical wing 12 Vertical direction,

A hole 9 is formed in the edge wing 8 of the lower plate 3 and the edge wing 10 of the upper plate 2 is formed with an embossing burring as a binding portion 11, 9)

The vertical bending jig (Q) is further extended in the edge wing (8) of the lower plate (3), and the vertical bending jig (Q) is connected to the double bending vertical wing (12) of the upper plate Thereby maximizing the bearing capacity.

The present invention has the following effects.

The present invention has a configuration in which a vertical bending jig (Q) is further elongated on an edge wing 8 of the lower plate 3 and is also engaged with a double bending vertical wing 12 of the upper plate 2, A concentrated load of not less than 30% in comparison with the case in which the vertical bending mound Q is not formed in the lower plate 3 by maximizing the supporting force against the concentrated load of the edge (i.e., displacement portion) load: concentrated load), and it is able to withstand an impact load (JIS standard) of 3 times or more as compared with the line registration design, and the breaking load is improved by 16% as compared with the line registration design.

Therefore, by improving the structure of the edge (ie, displacement part), which is the most vulnerable part to the concentrated load in the double bottom plate, it is possible to improve the load on the concentrated load (concentrated load) By minimizing the thickness of the steel panels of the upper and lower plates by maximizing the bearing capacity, it is possible to reduce the load on the building and reduce the production cost, thereby enhancing the competitiveness of enterprise operation and saving resources.

Fig. 1 is an overall outline perspective view of a "double bottom plate for a building"
2 is a front view of a "double bottom plate for a building" according to the present invention.
3 is a plan view of a "double bottom plate for a building" according to the present invention.
Fig. 4 is a plan view of the lower plate in a state where the upper plate is removed from the "double bottom plate for building"
Fig. 5 is a schematic view showing various embodiments of the cross-sectional shape of the lower plate formed by the reinforcing support protrusion and the bent surface in the "double bottom plate for building " according to the present invention.
6 is a sectional view taken along the line AA in Fig. 3 according to the present invention.
Fig. 7 is an enlarged view of the portion "B" in Fig. 6 according to the present invention.
Fig. 8 is an enlarged view of a portion "C" in Fig. 6 according to the present invention.
Fig. 9 is a plan view showing a state in which a "double bottom plate for a building" according to the present invention is installed on a building floor.
10 is an enlarged cross-sectional view of the periphery of the building with the "building double bottom plate" according to the present invention installed on the floor of the building.
11 is a cross-sectional view illustrating a conventional double bottom plate.

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

The configuration of the present invention will be described first with reference to FIG. 1 and FIG. 4 to FIG.

The double bottom plate 1, which is installed and installed on the floor of a building such as a high-rise building, an office building and an information building, is constructed by combining the upper plate 2 and the lower plate 3 to form a hollow portion 4 And a plurality of reinforcement supporting protrusions 5 are formed on the edge where the upper plate 2 and the lower plate 3 are coupled to each other, (6).

The upper and lower plates 2 and 3 constituting the double bottom plate 1 are made of steel panels and have a thickness of 0.5 to 0.6 mm.

Wood, recycled plastic, concrete or the like, which recycles waste materials, is used as the interior material (5) embedded in the hollow portion (4).

The reinforcing supporting protrusions 6 are formed at a predetermined interval on the periphery of the lower plate 3 as shown in Fig. 4 (a plan view of the lower plate from which the upper plate has been removed) And protruding outwardly by a predetermined distance D1 (D2) from the folded surface 7,

5A, the cross section of the lower plate 3 formed by the reinforcing support protrusions 6 and the bent surface 7 is formed in a trapezoidal shape as shown in FIG. 5A, a triangle as shown in FIG. 5B, a circular arc as shown in FIG. 5C, and a square as shown in FIG. 5D.

As shown in Figs. 4 and 8, the upper plate 2 and the lower plate 3 are pierced by a hole 9 in the edge wedge 8 of the lower plate 3 above the bent surface 7 of the lower plate 3 And the upper and lower plates 2 and 3 are joined together with the hole 9 by the embossing buried burr 11 and the embossing buried buried portion 11 of the upper plate 2, do.

7, 8, and 10, the tip end of the edge wedge 10 of the upper plate 2 is doubly bent by a curling process to form the double-bending vertical wedge 12 in the vertical direction .

The vertical bending jig (Q) is further extended in the edge wing (8) of the lower plate (3), and the vertical bending jig (Q) is connected to the double bending vertical wing (12) of the upper plate Thereby maximizing the bearing capacity.

The function and effect of the present invention will be described below.

First, as shown in Fig. 9, the double bottom plate 1 of the present invention is installed on the floor of the building in all directions.

When the double bottom plate 1 is installed on the floor of the building, the double bending vertical fingers 12 formed on the top end of the upper plate 2 between the adjacent double bottom plates 1 are in contact with each other as shown in FIG.

The double bottom plate 1 of the present invention installed as described above is designed so that even if a shock is applied to a peripheral edge or a heavy office equipment or a product such as a bookcase or furniture is subjected to a load for a long time, It is possible to prevent the phenomenon of depression or destruction.

That is, since the plurality of reinforcing supporting protrusions 6 are formed on the peripheral edge of the lower plate 3 with the bent surface 7 as a starting point, the supporting force against the concentrated load is maximized You can do it.

The reinforcement supporting protrusions 6 and the bent surfaces 7 form the bottom plate 3 in a trapezoidal shape, a triangular shape, an arcuate shape, a square shape, or the like so that the load applied to the lower side is dispersed So that the support force can be maximized.

The edge portion of the edge plate 10 of the upper plate 2 is doubly bent so as to form the vertical bending direction of the vertical bending piece 12 in the vertical direction, The peripheral edge portion (i.e., the displacement portion) of the upper plate 2 is connected to the double bending vertical wing 12 of the upper plate 2 so as to form a concentrated load Concentrated load) can be maximized.

In this case, the bearing capacity for a concentrated load of 30% or more is improved compared to the line registration design when the vertical bending jig (Q) is not formed in the lower plate (3) The load (JIS standard) was destroyed once, but this design has no problem in shock more than 3 times, and the breaking load is improved by 16% compared with the design of the line.

The edges of the edge plate 8 of the lower plate 3 and the edges of the edge plate 10 of the upper plate 2 are joined to each other by the plurality of fastening portions 11 to increase the strength of the support.

Therefore, the peripheral edge of the double bottom plate 1 can maximize the supporting force against a concentrated load.

In FIG. 10, the peripheral portion distances D1, L and D2 of the adjacent double bottom plates 1 were found to be in the range of 8,000 N as a result of a concentrated load.

Even if the steel panels of the upper and lower plates 2 and 3 are fabricated to a thickness of 0.5 to 0.6 mm, a concentrated load of at least 3,000 N to 5,000 N required by KSF 4760 Of course, it is 8,000N more than 30,000% higher than the range of 5,000 ~ 6,000N of the line registration design. Therefore, the double bottom plate (1) can be manufactured at an extremely low cost while maximizing the bearing capacity against the concentrated load required for the double bottom plate It can maximize competitiveness.

That is, the thickness of the steel panels of the upper and lower plates 2 and 3 can be reduced by 16% or more compared to the design of the line, and the material value is reduced by 20%.

As the reinforcing supporting protrusions 6 are formed, the circumferential intervals a, c and b of the adjacent double bottom plates 1 are minimized as shown in FIG. 10, so that heavy office equipment, bookshelves, Is narrower than the width of a caster or a leg coupled to a vessel of the apparatus, so that the depression phenomenon can be further prevented.

In addition, since the hollow portion 4 of the double bottom plate is embedded with the interior material 5 such as wood, when walking is performed on the floor of the building, the resonance phenomenon [Phenomena; (2) and (3) are combined by embossing burring only at the periphery when the upper and lower plates 2 and 3 are combined. Therefore, the deformation of the material is minimized, (The flatness is less than 0.2 mm in the KS standard, but the present invention is less than 0.03 mm).

The present invention is configured such that a vertical bending jig (Q) is further elongated on an edge bending piece (8) of the lower plate (3) and is also engaged with a double bending vertical bending piece (12) of the upper plate A concentrated load of 30% or more is obtained when the vertical bending mover (Q) is not formed on the lower plate (3) by maximizing the supporting force against the concentrated load of the edge (i.e., displacement portion) (concentrated load), and it is able to withstand an impact load of 3 times or more (JIS standard) as compared with the line registration design, and the breaking load is improved by 16% as compared with the line registration design.

Therefore, by improving the structure of the edge (ie, displacement part), which is the most vulnerable part to the concentrated load in the double bottom plate, it is possible to improve the load on the concentrated load (concentrated load) By minimizing the thickness of the steel panels of the upper and lower plates by maximizing the bearing capacity, it is possible to reduce the load on the building and reduce the production cost, thereby enhancing the competitiveness of enterprise operation and saving resources.

1: double bottom plate 2: top plate
3: lower plate 4: hollow portion
5: Interior material 6: Supporting projection for reinforcement
7: Bending surface 8:
9: hole 10: edge of the edge
11: Bonding part 12: Double bending vertical wipe
Q: Vertical bending

Claims (1)

The double bottom plate 1 installed on the floor of a building is constituted by a top plate 2 and a bottom plate 3 to constitute a hollow portion 4,
The top plate 2 and the bottom plate 3 are each made of a steel panel and the tip of the edge wedge 10 of the top plate 2 is doubly bent to form the double bending vertical wing 12 Vertical direction,
A hole 9 is formed in the edge wing 8 of the lower plate 3 and the edge wing 10 of the upper plate 2 is formed with an embossing burring as a binding portion 11, 9)
The vertical bending jig (Q) is further extended in the edge wing (8) of the lower plate (3), and the vertical bending jig (Q) is connected to the double bending vertical wing (12) of the upper plate Wherein the supporting plate is provided with a plurality of projections.

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