KR101486935B1 - floor frame using metal flooring joist - Google Patents

Abstract

The present invention relates to a floor frame using metal joists. The floor frame uses the metal joists and a shock absorbing means to effectively absorb the shock and noise while enabling precise horizontal leveling. According to an embodiment of the present invention, the floor frame is applied with a dual holding method with holding bolts formed on both sides. Accordingly, the floor frame enables precise horizontal leveling under any conditions including when the smoothness of the bottom surface is at a poor level.

Description

[0001] The present invention relates to a floor frame using metal flooring joist,

The present invention relates to a marble frame using metal seams capable of precisely leveling and excellent shock absorbing and noise reduction effects by using metallic seams and shock absorbing means made of metal.

The flooring forms a skeletal structure that maintains the level of the finishing material by forming a gap between the building floor and a certain height. The skeletal structure and the dustproof material support the upper load to absorb the impact and prevent the noise, thereby maintaining a pleasant indoor environment .

The spaced space from the floor has the effect of preventing the corrosion and deformation of the floor board by inducing smooth air flow.

Conventional flooring structure has a drawback in that durability is poor when wood joist lines are used, and there is a problem that it is difficult to reuse due to applying a takapin fixing method when fixing plywood.

In addition, if the floor smoothness is poor, it is difficult to maintain the horizontal position of the metal joists, so that the work process becomes complicated according to the smoothness of the floor.

A conventional art relating to a marl frame is Korean Registered Utility Model No. 20-0388497 (name of design: height adjustable marl).

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art described above, and it is an object of the present invention to provide a metal joist having excellent buffering effect against vibration and noise, easy horizontal adjustment of metal joist lines, And to provide a flooring using such a flooring.

The above object of the present invention is achieved by a method of manufacturing a metal shell, comprising the steps of: forming a metal shell having a top surface portion and a side surface portion and a coupling flange bent inwardly from the side surface portion and extending in one direction; An anti-vibration rubber pad formed of a resilient material having a slide engaging portion engaged with the engaging flange and formed with an engaging piece at a lower portion thereof, and a bolt engaging hole engaging with the engaging piece of the anti-vibration rubber pad, A support plate formed with a support bolt coupling part and a support bolt screwed into the bolt coupling hole of the support bolt coupling part, wherein the metal sheaths supported by the support wire support part are arranged in a plurality of rows By means of a metal flooring using a joist .

In order to achieve the above object, the floor mat further includes a long line spacing bar having plate holes on both sides thereof, wherein the column fasteners support the metal long wire, The engagement holes formed on both sides of the long line spacing bar are inserted and connected to the holding bolts of the long line support portions that support the metal long wires constituting, thereby forming a gap between the metal long lines of the one row and the metal long lines of the other row Is held by the joist spacing bar.

Wherein the marl frame further comprises a joist connector having an upper plate and a side plate extending downward from both sides of the upper plate, wherein when connecting the at least two metal joists in the longitudinal direction, It is preferable that the two or more metal seams are connected to each other by being inserted into the metal seam.

And a bolt tightening portion formed inside the bolt tightening portion and having a smaller inner diameter than that of the stopper engagement face fastening portion, wherein the bolt fastening portion is formed inside the bolt fastening portion, Wherein a lower portion of the support bolt engaging portion exposed downwardly of the support plate has a diameter larger than a diameter of the support bolt and a stopper engagement surface formed on the outer side thereof with a protrusion and a recess, The stop bolt engagement portion is brought into close contact with the stopper engagement surface of the post bolt engagement portion while the bolt close portion is brought into close contact with the post bolt so that the post bolt is rotated relative to the post bolt engagement portion Is prevented.

Further, it is preferable that the floor frame further comprises a vibration-proof rubber hoof having elasticity at the lower end of the holding bolt.

It is preferable that the wall of the construction site is further provided with a mounting frame provided with a coupling pin in the inner space and the coupling hole of the joist spacing bar closest to the wall is connected to the coupling pin of the mounting frame .

According to the marine frame using the metal joist according to the present invention, the double holding method in which the holding bolts are formed on both sides has the advantage that the leveling can be precisely controlled under any condition including the case where the flatness of the bottom is not good.

In addition, since the floor bolts according to the present invention are located on both sides of the joist bolts, the joist bolts can be positioned close to the ground.

Further, the flooring according to the present invention is advantageous in suppressing noise generation and shock absorbing function by adopting a double vibration prevention structure by a vibration proof rubber pad and a vibration proof rubber hoof to support a metal long cable.

Further, the marble according to the present invention is easy to align the metal joists by using the joist spacing bars, and after the joining of the joists, the joining of the metal joists is not interrupted even if the joists are touched during the operation.

1 is a plan view showing a flooring according to the present invention installed on the floor of a gymnasium,
Fig. 2 is a perspective view showing a structure in which a support is supported by a metal seam of a floor frame according to the present invention,
3 is a cross-sectional view taken along the line AA 'in FIG. 2,
4 is a side view of a joist fitting used to longitudinally join metal seams of a flooring according to the present invention,
FIG. 5 is a cross-sectional view illustrating a part of a metal frame of a floor frame according to an embodiment of the present invention,
6 is a perspective view of a joist spacing bar for maintaining the spacing between metal joist lines of a flooring according to the present invention,
FIG. 7 is a cross-sectional view showing a state in which metal seams of a floor frame according to the present invention are connected to each other through a joist spacing bar.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully with reference to the accompanying drawings, in which exemplary embodiments of the invention are shown.

2 is a perspective view showing a structure in which a metal strut of a floor mat is supported by a strut, FIG. 3 is a perspective view of the floor of a gymnasium according to the present invention, and FIG. 4 is a side view of a joist fitting used for longitudinally joining metallic joists of a floor stool according to the present invention, and Fig. 5 is a side view of the joining joist for joining metallic joists of a floor stool according to the present invention, 6 is a perspective view of a joist spacing bar for maintaining the spacing between metal joists of the marinette according to the present invention, and Fig. 7 is a perspective view of the marinette according to the present invention. Sectional view showing a state in which metal long joists are connected through a joist spacing bar.

1 to 7, the floor unit according to the present invention includes a metal seam 10 installed in a floating state up to a predetermined distance from the floor, and a long seam supporting part 100 for supporting a lower part of the metal seam 10 And a joist spacing bar 80 coupled to the metallic joist lines 10 to maintain a spacing between the metallic joist lines 10 spaced apart from each other.

The metal joist line 10 is a structure of a metallic frame having a shape of approximately a slit in cross section and supporting the wooden deck under the wooden deck, and has a length longer than the width. The metal seam line 10 has side faces 13 formed on both sides of the upper face portion 11 and the upper face portion 11 and the lower portion of the metal seam 10 has an open structure. The upper surface portion 11 of the metal composite wire 10 is formed horizontally with respect to the paper surface and the recess portion 12 is formed in the longitudinal direction and the side surface portions 13 are formed so as to be bent at both sides of the upper surface portion 11 and downward do. The side portions 13 of the metal composite wire 10 are formed to be inclined slightly toward the inside of the metal wire 10 and the coupling flange 14 formed at the lower end of the side portion 13 in the horizontal direction is formed.

The anti-vibration rubber pad 20 has a rectangular shape, a dovetail-shaped slide engaging portion 21 is formed on both sides, and a latching piece 22 for engaging the support plate 30 is formed on both sides of the anti- .

The support plate 30 supports the vibration damping rubber pad 20 and has a penetration portion 31 formed on both sides thereof. The penetration portion 31 is formed with a screw thread (not shown) And a stop bolt coupling portion 40 having a diameter larger than that of the bolt 50 is formed in the lower portion of the bolt coupling portion 40. The stop bolt coupling portion 40 is formed with a protrusion 43, A surface 42 is formed.

The holding bolt 50 is a bolt having a screw insertion groove 51 formed at the upper end thereof and threaded around the bolt 50, and a vibration-proof rubber hoof 50 made of an elastic material for shock absorption is placed on the lower end thereof. The holding bolt 50 is screwed into the bolt fitting hole 41 of the holding bolt connecting portion 40 fixed to both sides of the supporting plate 30. [

The stopper 60 is for fixing the holding bolt 50 to the holding bolt connecting portion 40. The stopper 60 is made of a synthetic resin material having elasticity and has a stopper engaging surface contact portion 62 penetrating stepwise in two steps, Tight contact portion 64 is formed. The bolt tightening portion 64 is a portion that is in close contact with the outer surface of the support bolt 50 and the stopper engagement surface tightening portion 62 is a portion that is in close contact with the stopper engagement surface 42. The inner diameter of the bolt tightening portion 64 is, And is formed to be smaller than the engaging surface contact portion (62).

The method of fixing the holding bolt 50 by the stopper 60 is to adjust the height of the holding bolt 50 by using a screw or the like while the stopper 60 is lowered below the stopper engagement surface 42, The stopper 60 is raised so that the stopper engaging surface abutting portion 62 on the inner side of the stopper 60 abuts against the stopper engaging surface 42 of the lower portion of the holding bolt engaging portion 40, Respectively. In this case, the stopper engaging surface contact portion 62 on the upper portion of the stopper 60 is in close contact with the stopper engaging surface 42 of the lower portion of the holding bolt engaging portion 40, (64) is in tight contact with the holding bolt (50). The support bolt 50 is not rotated with respect to the support bolt engaging part 40 so that the support bolt 50 does not tilt in the lateral direction due to the rotation of the support bolt 50, The noise generated by the release of the noise is blocked. When the height of the holding bolt 50 is adjusted and then the stopper 60 is pushed up, it is indicated that the height adjustment of the holding bolt 50 is completed. Therefore, it is possible to prevent the operator from repeating the same operation . When the holding bolt 50 is rotated for height adjustment, the holding bolt 50 is rotated in a state where the stopper 60 is lowered for smooth rotation of the holding bolt 50.

As shown in FIG. 4, the joist fitting 70 is used to longitudinally connect two metal joists 10 adjacent to each other along the length direction of the joist 10. The joist fitting 70 includes a top plate 71 and a side plate 72 extending downward from both sides of the top plate 71. The joining plate 70 has a substantially diagonal cross section.

When one end of the long wire connecting hole 70 is inserted to the inside of the metal long wire 10 by a predetermined depth, the side plates 72 on both sides of the long wire connecting hole 70 tightly fit on the inner side surface of the metal long wire 10, (10) and the joist fitting (70) engage with each other. Since the metal shell 10 has a shape in which the side portions 13 are narrowed downward, the side plates 72 of the filament connecting portions 70 are tightened by the side portions 13 of the metal filaments,

As shown in FIG. 5, when the other end of the long wire connecting hole 70 is coupled to the inside of another metal wire 10 in this manner, two adjacent metal wires 70 are connected. A plurality of metal-made joists 10 are longitudinally joined to each other in such a manner as to match the length of the installation site. Since the joining of the joist fitting 70 and the metal joist 10 is performed using a combination of fittings, the joining of the metal joist 10 with the metal joist 10 ), So that the operation is simple. Since the joist fitting 70 is inserted in the inner side of the metal joist lines 10, the joining means such as a bolt does not protrude from the upper end of the metal joist 10, so that the upper surface of the joist line 10 is flat So that lifting does not occur when a plywood or the like is stacked on the upper surface of the metal composite wire 10.

As shown in FIG. 6, the joist spacing bar 80 is used to align the intervals between the metal joist lines 10 arranged side by side evenly. The joist line spacing bar 80 is formed in a plate structure and has engaging holes 82 at both ends thereof. 7, the engaging hole 82 of one side of the joist spacing bar 80 is passed through the upper end of the strut bolt 50 exposed above the support plate 30 of the joist support 100 And the other end of the holding bolt 50 exposed at the upper portion of the supporting plate 30 of the long wire supporting portion 100 supporting the next metal wire 10 in the transverse direction, (Not shown). At this time, the joist spacing bar 80 passes through the lower space of the metal joist line 10 located at the center and is connected to the joist supporting portion 100 located next. The plurality of spacers 80 are connected to each other along one row while the plurality of long wires 100 are connected to each other by crossing the plurality of metal seams 10 one by one. 1, the next row of spacers 80 spaced apart from each other connects the long posts 100 supporting the skipped metal seams 10 to each other. As a result, the rows of the two long line spacing bars 80 result in keeping the spacing of all the metal long lines 10 arranged in the lateral direction at regular intervals. The last joist spacing bar 80 to be brought into contact with the wall 5 has a length corresponding to the distance between the last joist supports 100 and the wall 5, And the engaging hole 82 of the frame 90 is coupled to the engaging pin 92. [

The spacing between the metallic joist lines 10 arranged in rows by the joist spacing bars 80 can be arranged at equal intervals. In addition, after the metal seams 10 are arranged, even if the metal seams 10 are touched during the operation, the arranged intervals can be kept constant without changing. In the conventional method of installing the floor, the floor is laid on the floor in accordance with the interval where the metal composite wire 10 is to be placed, and the pillars and the metal composite wire 10 are connected to the floor. In this conventional method, Cleaning and the like are required, and there is a disadvantage that the construction period is lengthened due to the addition of the feed line forming process. Since the marl frame according to the present invention uses the joist spacing bar 80, it is possible to simplify the arrangement and arrangement interval of the metal joist lines 10, thereby shortening the construction period and securing the interval of the metal joist lines 10 accurately .

Since the floor support according to the present invention is applied with the double support method using the two support bolts 50 for supporting the long wire support portion 100 supporting the metal wire 10, The level can be adjusted to a precise level.

Also, it is possible that the floor bolt according to the present invention is installed such that the support bolt 50 is separated from the metal composite wire 10 on both sides of the metal composite wire 10 so that the metal composite wire 10 is close to the ground.

In addition, since the floor support according to the present invention has the anti-vibration rubber pads 20 and the anti-vibration rubber hooves 50 formed on the long support portion 100, the anti-vibration structure is excellent in the effect of buffering vibration and noise.

Since the metal seam 10 of the floor according to the present invention has a shape in which the side surface portion 13 is converged inward, the bottom end of the metal seam 10 is located outside the metal seam 10, . Therefore, since the coupling flange 14 at the lower end of the metal seam 10 does not open, the coupling between the coupling flange 14 and the vibration-proof rubber pad 20 is not loosened and mutual separation does not occur.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And additions should be considered as falling within the scope of the claims of the present invention.

10 metal joist
20 Antivibration Rubber Pads
30 Support plate
50 holding bolts
60 stopper
70 Joint connector
80 Main line spacing bar
90 mounting frame

Claims (6)

A metal shell having a top surface portion and a side surface portion and a coupling flange bent inwardly from the side surface portion and extending in one direction; And
And a long wire support portion for supporting the metal long wire,
The long-
A vibration-proof rubber pad of an elastic material having a slide engaging portion formed to be slidably engaged with the engagement flange of the metal seam and having a locking piece formed thereunder;
A support plate having a bolt coupling part fitted into the engagement piece of the anti-vibration rubber pad and formed with a bolt coupling hole on both sides thereof; And
And a holding bolt threaded into the bolt coupling hole of the holding bolt coupling portion,
Wherein the metal joists supported by the joist supports are disposed in a plurality of rows in a construction site. The method according to claim 1,
Further comprising: a joist spacing bar having plate holes on both sides thereof,
The support bolts for supporting the metal seams and the column bolts for supporting the metal seams constituting the other rows of the column bolts constituting the one row, And a gap between the metal seam line of the one row and the metal seam line of the other column is held by the joist spacing bar by penetrating the joining hole. The method according to claim 1,
Further comprising a joist connector having a top plate and side plates extending downward from both sides of the top plate,
Wherein when the two or more metal joists are connected in the longitudinal direction, the joist connectors are inserted into the adjacent metal joists adjacent to each other so that the two or more metal joists are connected to each other. The stapler according to claim 1, wherein a bolt fastening portion formed in a penetrating structure having a stopper engagement face contact portion of a through structure and a lower internal diameter of the stopper engagement face contact portion and formed at a lower portion of the stopper engagement face close contact portion, Further comprising a rubber stopper which is installed to surround the bolt,
A lower portion of the support bolt coupling portion exposed below the support plate is formed with a stopper engagement surface having a diameter larger than the diameter of the support bolt and formed with recesses and protrusions on the outer side,
When the stopper is pushed upward against the holding bolt, the stopper engaging surface abutting portion is brought into close contact with the stopper engaging surface of the holding bolt engaging portion and the bolt abutting portion is brought into close contact with the holding bolt, Is prevented from rotating with respect to the metal frame. The method according to claim 1,
And a vibration-proof rubber hoof having elasticity is further formed on the lower end of the holding bolt. 3. The method of claim 2,
A mounting frame having a coupling pin is formed in an inner space of the wall of the installation site,
And the coupling hole of the joist spacing bar closest to the wall is coupled to the coupling pin of the mounting frame.

Images