KR101400226B1 - Angle type light weigt steel material cross beam structure - Google Patents

Abstract

The present invention relates to a length-adjustable angle type lightweight steel material floor beam. The purpose of the present invention is to improve site constructability by making the coupling location adjustable even if the distance between girders changes while constructing a bridge. To achieve the purpose, the steel material floor beam (30) whose both end parts are coupled with a bolt (40) to an angle steel (20) formed on girders (10) on both sides in order to connect the bridge girder (10) comprises: a first elongated hole (31) in a certain length which is formed at both end parts of the floor beam (30) for bolt (40) coupling with the angle steel (20); an uneven projection (51) which protrudes at a certain height on the bolt (40) coupling area to be inserted to the first elongated hole (31); and an uneven washer (50) that is coupled to one side of the uneven projection (51), where a bolt hole (52) is formed.

Description

{ANGLE TYPE LIGHT WEIGHT STEEL MATERIAL CROSS BEAM STRUCTURE}

[0001] The present invention relates to a steel beam cross-section, and more particularly, to an angled lightweight steel beam cross-section capable of adjusting a length of a cross beam to which a girder installed to support a bridge top plate is connected, will be.

Generally, bridges are supported by bridges and girders, and are constructed by connecting girders after a girder is installed on a bridge pier or alternate upper part of a bridge. This is a bridge structure that disperses and alleviates the stress generated by transversely distributing the forces acting on adjacent girders.

As a prior art example of such steel bar beams, Patent Application No. 2007-44681 has proposed a steel bar beam installation structure for improving the problem of a cross beam installed by a conventional concrete casting method.

On the other hand, the girder for a bridge is constructed with a certain length and it is placed on the bridge pier and the construction is performed. As the load is gradually reduced due to its own load, the bridge is gradually developed.

However, since there is no adjusting function of the length of the steel material in the prior art, the position of the bolt hole with the girder fastening portion is displaced at the portion where the warpage is generated in the cross beam construction process, thereby making it difficult to fasten the bolt.

The present invention has been proposed in order to overcome the problems of the prior art, and it is an object of the present invention to provide a technology structure capable of adjusting the length through adjustment of the fastening position of the steel beam, .

According to an aspect of the present invention, there is provided a steel cross bar having both ends thereof bolted to an L-shaped steel formed on both sides of a girder for connecting a bridge girder, the steel beam having a predetermined length for fastening a bolt with an L- 1 < / RTI > A second elongated hole having a predetermined length is formed in the L-shaped portion corresponding to the first elongated hole; The protruding protrusion is protruded at a predetermined height to be inserted into the first slot and the protruding washer is fastened to one side of the protruding protrusion through a bolt hole.

The lateral view of the present invention has an effect of improving the workability in the field because it is possible to adjust the fastening position even if the interval between the girders is varied in the bridge construction process.

Particularly, there is an advantage that the convenience of the operation can be maximized by selecting the appropriate parts according to the state of the fastening part of the cross beam in the state where the irregular washers of various shapes are prepared.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view of a bridge according to an embodiment of the present invention; Fig.
FIG. 2 is a detailed view of a cross beam installation state according to the present invention. FIG.
3 is an enlarged view of part A of Fig.
Fig. 4 is a plane structural view of a cross bar installed state according to the present invention; Fig.
Fig. 5 is a sectional view of a side beam and an L-shaped steel part in the present invention. Fig.
6 is a view showing the shape of the irregular washer in the present invention.
7 is an exploded cross-sectional view of a cross bar fastener according to the present invention.
FIG. 8 is a cross-sectional view of a cross bar fastening portion according to the present invention. FIG.
FIG. 9 is a cross-sectional view of a cross bar according to another embodiment of the present invention. FIG.
10 is a state before the spacer plate is fastened in the present invention.
11 is a view showing a process of tightening a gap adjusting plate in the present invention.
12 is a perspective view of a spacer plate component according to the present invention.
Fig. 13 is a view showing a state in which the gap-adjusting plate of the present invention is detachably secured to the gap; Fig.

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

The steel girder 10 according to an embodiment of the present invention includes a steel girder 10 having both ends connected to a bolt 40 at both ends of the steel girder 10, A first elongated hole 31 having a predetermined length is formed at both ends of the beam 30 to fasten the bolt 40 to the L-shaped steel 20, The protrusive projection 51 is protruded at a predetermined height so as to be inserted into the first long hole 31 and the protrusive washer 50 having the bolt hole 52 penetrated is fastened to one side of the protrusive projection 51.

5, the fastening position of the bolt 40 can be variably controlled by forming the first elongated hole 31 at both ends of the cross bar 30, 6, the bolt holes 52 may be formed in various shapes with different positions and may be selectively used. At one side of the bolt holes 52, protrusions and protrusions 51 may be formed so as to be fitted into the first holes 31, As shown in Fig.

It is preferable that the second long hole 21 having a predetermined length is formed in the L-shaped portion 20 corresponding to the first long hole 31 so that the variation of the fastening position of the bolt 40 can be further increased.

Hereinafter, the operation and effect of the present invention will be described.

The steel material beam 30 according to the present invention is connected between the girders 10 that are seated on top of bridge columns (not shown) and support the bridge top plate 100 during the bridge construction process. The construction is performed in the form of intersecting with the X-letter as shown in FIGS. 1 and 2.

That is, in the construction site, the L-shaped steel 20 is coupled to both side walls of the girder 10 by using the anchor bolts 11, The cross beams 30 are fastened to the both side L-shaped sections 20 by means of bolts 40 so that they can be mutually supported.

At this time, depending on the position of the girder 10 and the bending state of the girder 10, the fastening position of the bolt 40 is slightly different according to the position where the cross bar 30 is fastened. However, the cross bar 30 and the L- The fastening operation of the bolt 40 can be easily performed because the first long hole 31 and the second long hole 21 are formed to allow variable adjustment of the fastening position.

When the bolt 40 is fastened, the irregular washer 50 with the bolt hole 52 is selected to fit the position of the bolt 40 passing through the first long hole 31, ) Portion is engaged with the first long hole 31, so that the stable fastening state of the bolt 40 can be maintained.

Therefore, even if the interval between the girders is varied during the bridge construction process, it is possible to adjust the fastening position of the bolt 40 of the reinforcing bar 30, thereby improving the workability in the field.

9 to 13 illustrate a lateral beam installation structure using a spacer plate according to another embodiment of the present invention.

That is, as shown in the drawing, the cross beams 30 are divided into a plurality of cross sections, and are connected to each other by long bolts 32. The cross beams 30, which are connected to the long bolts 32, And a bolt guide groove 71 for guiding the long bolt 32 is formed in the gap adjusting plate 70. The bolt guide groove 71 is formed at one side of the bolt guide groove 71, And a bolt coupling groove 72 into which the bolt 32 is inserted is formed.

Preferably, the bolt guide groove 71 of the gap adjusting plate 70 is formed with a release preventing block 73 for preventing the bolt 32 coupled to the bolt fitting groove 72 from being detached.

As the distance between the side girders 10 is gradually changed in the course of the bridge construction process, the interval adjusting plate 70 is used to adjust the interval to be inserted into the connecting portion of the long bolt 32 connecting the cross bar 30 By adjusting the quantity of the plates 70, an appropriate spacing adjustment in the field can be made.

Particularly, in the process of inserting the gap adjusting plate 70, the long bolt 32 is guided to the bolt guide groove 71 first, and then the long bolt 32 is inserted into the bolt fitting groove 72 extending in the perpendicular direction When the gap adjusting plate 70 is inserted into the bolt guide groove 71, the gap preventing plate 70 is inserted into the gap adjusting plate 70, So that it can be prevented from being detached from the bolt 32.

Accordingly, it is possible to exhibit an advantage that the field response force according to the installation position of the beam 30 is further improved.

Although specific embodiments of the present invention have been illustrated and described above, it should be apparent that the steel bar structure of the present invention can be variously modified by those skilled in the art.

For example, although the shape of the concavo-convex washer 50 is shown as three types in the drawings of the above embodiment, the position of the bolt hole 52 may be further subdivided so that more kinds of the concave- .

Therefore, it should be understood that such modified embodiments should not be understood individually from the technical spirit and scope of the present invention, and such modified embodiments should be included in the appended claims of the present invention.

10: girder 11: anchor bolt
20: L-shaped section 21: second section
30: Crossbar 31: First Floor
40: bolt 41: nut
50: Uneven washer 51: Uneven protrusion
52: Bolt hole 60: Flat washer
70: Spacing plate

Claims (6)

A steel beam cross-section (30) in which bolts (40) are joined at both ends to an L-shaped steel (20) formed on both girders (10) for connection of a bridge girder (10)
A first elongated hole 31 having a predetermined length is formed at both ends of the beam 30 to fasten the bolt 40 with the L-shaped steel 20;
The protrusion protrusion 51 is protruded at a predetermined height so as to be inserted into the first slot 31. The protrusion protrusion 51 is formed at one side of the protrusion protrusion 51 with a bolt hole 52, );
The cross beams 30 are divided into a plurality of sections and connected to each other by long bolts 32. The cross beams 30 connected to the long bolts 32 are spaced apart from each other by spacing plates A bolt guide groove 71 for guiding the long bolt 32 is formed in the gap adjusting plate 70 and a long bolt 32 is inserted into one side of the bolt guide groove 71. [ Characterized in that a bolt engagement groove (72) to be engaged is extended. The method according to claim 1,
And a second elongated hole (21) having a predetermined length is formed in the L-shaped steel (20) corresponding to the first elongated hole (31). The method according to claim 1 or 2,
Wherein the uneven washer (50) is manufactured in such a manner that the positions of the bolt hole (52) and the uneven protrusion (51) are different from each other, and is selectively used according to the situation in the field. delete The method according to claim 1,
A separation preventing block 73 is inserted into the bolt guide groove 71 of the gap adjusting plate 70 to prevent detachment of the long bolt 32 coupled to the bolt fitting groove 72. Adjustable angle lightweight steel beams. delete

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