KR101010109B1 - Concrete filled composite lining board of assembly type - Google Patents

Abstract

PURPOSE: A prefabricated concrete filled steel composite deck plate is provided to improve the durability of the deck plate by reducing welding parts and to minimize welding failure. CONSTITUTION: A prefabricated concrete filled steel composite deck plate comprises a casing(20), a concrete support plate(30), reinforcing bars, and concrete. The casing has a casing base plate(21), a pair of casing side plates(22), and casing flanges(23). The top of the casing is opened. The concrete support plate has a concrete base plate, a pair of concrete side plates(32), and concrete flanges(33). The concrete support plate is inserted into the casing and is welded. The reinforcing bars are vertically and horizontally arranged on the top of the concrete support plate. Concrete is placed on the top of the concrete support plate.

Description

Concrete filled composite lining board of assembly type

The present invention relates to a perforated plate, and more particularly, it is composed of a fitting structure of the casing and the concrete support plate to reduce the material and manufacturing labor of the steel sheet, and to improve the durability and stability of the bonded concrete filled steel composite composite plate It is about.

It is used for underground construction (subway, subway road construction, underground shopping mall, etc.), road rehabilitation, soft ground facilities, bridge construction, multi-layer civil engineering works. In other words, the duplex board is used to cover the road so that the pedestrians or vehicles do not interfere when digging roads or installing temporary bridges for underground facility construction such as open excavation or subway construction, or large buildings with steel structure Or it is used as flooring for parking facilities, etc., which is made of steel structure. The perforated plate is installed in an upper side beam such as a space formed by excavation to serve as a floor surface, and the vehicle or a person can pass to the upper surface of the perforated plate. Therefore, the perforated plate is installed throughout the construction period and is subjected to repeated fatigue load by the passing vehicle, so durability and stability are required.

Generally, the perforated plate used is different in form, but all are manufactured by welding by welding. That is, the perforated plate is manufactured by arranging a plurality of "c" shaped steel side by side as a whole steel and then connecting by welding. In the case of welding work, a lot of effort is required to secure the quality, and the welded part has a disadvantage of being vulnerable to the fatigue phenomenon caused by the repeated load. Repetitive impact loads are generated on the upper surface of the perforated plate continuously. If the welded part is damaged by the repeated impact load, the performance of the perforated plate may be degraded and may cause a great problem for safety. .

As described above, all the perforated plates are expensive due to the large amount of steel, and due to the characteristics of the steel, the road surface is slippery, and a non-slip facility must be installed separately.Therefore, the welding volume is frequently destroyed due to repeated fatigue during repeated driving of the vehicle. In order to supplement the situation, the hollow plate using concrete and steel or concrete and steel is being developed.

The use of concrete in the perforated plate solves the slippage of the road surface, and can be said to be an alternative that can reduce the production cost of steel. Even if concrete is used, the steel must be used inevitably, so it is necessary to reduce the cost by minimizing the material of the steel required for the perforated plate, reduce the number of welding to prevent welding defects, and have no problem in the durability and stability of the welded part. The process should be shortened.

Therefore, the present invention was devised in view of the above-mentioned circumstances, and formed by fitting the casing and the concrete support plate to form a concrete layer, the filling space of the concrete is formed, minimizing the production process and the amount of steel used In addition, the object of the present invention is to provide a prefabricated concrete-filled composite composite plate that can reduce welding sites to prevent welding defects and improve durability.

Specific means of the present invention for achieving the above object is a casing base plate having a long side and a short side, a pair of casing side plate bent in the long side of the casing base plate and having a constant height and opposed to each other, at the end of the casing side plate Casing made of steel with a structure that is bent at a certain width and is horizontal to the casing base plate, and has a casing flange which is cut at both ends and has a length shorter than the long side length of the casing side plate, and is open in the height direction of both short sides. and; A concrete base plate having the same area as the casing base plate, a pair of concrete side plates which are placed at opposite short sides of the concrete base plate and facing each other, and bent at the ends of the concrete side plate to be parallel to the concrete base plate so that both ends are connected to both side ends of the casing flange. A concrete support plate of a steel material having a concrete flange positioned to be in contact with the steel sheet, and inserted into one short side side from the other short side in the casing and welded to the inside of the casing; Rebars disposed transversely and longitudinally on the upper surface of the concrete base plate; And it is characterized in that the concrete is poured into the upper surface of the concrete base plate reinforced by rebar.

According to the present invention, a rib for reinforcing a lattice structure or a honeycomb structure is provided between the casing base plate and the concrete base plate.

In addition, according to the present invention, a plurality of angles having a lifting hole on the upper surface of the concrete is characterized in that it is installed.

Further, according to the present invention, a casing bottom plate having a long side and a short side, a pair of casing side plates which are bent on the long side of the casing bottom plate and have a constant height and face each other, and are bent at a end of the casing side plate and bent at a casing bottom plate. A casing made of steel having a structure open to the height direction of both short sides by having a casing flange having a length shorter than the length of the long side of the casing side plate and being cut horizontally at both ends; A concrete base plate having the same area as the casing base plate, a pair of concrete side plates which are placed at opposite short sides of the concrete base plate and facing each other, and bent at the ends of the concrete side plate to be parallel to the concrete base plate so that both ends are connected to both side ends of the casing flange. A concrete support plate of a steel material having a concrete flange positioned to be in contact with the steel sheet, and inserted into one short side side from the other short side in the casing and welded to the inside of the casing; Perforated steel sheet disposed in the transverse direction on the upper surface of the concrete base plate, consisting of a strip-shaped steel plate with a length longer than the width having a lower height than the concrete side plate, the hole formed at regular intervals along the longitudinal direction; And it is placed on the upper surface of the concrete base plate is characterized in that it comprises a concrete reinforced with a perforated steel sheet and synthesized integrally with the concrete base plate.

In addition, according to the present invention, characterized in that the longitudinal reinforcing bars are further disposed through the holes of some of the holes formed in the perforated steel sheet disposed in the transverse direction.

In the assembled concrete-filled composite composite plate according to the present invention, by filling the concrete support plate in the upper part of the casing, the filling curing space of the concrete surrounded by the side wall and the floor which can form the concrete layer is made, so that the overall amount of steel material This reduces the cost. In addition, the casing and the concrete support plate is made by bending the steel plate can minimize the welding site. In addition, since the concrete support plate is inserted into the casing and fixed by welding, the joint stability and durability are improved. In addition, since the attachment between the concrete support plate and the concrete layer of the steel is made through the perforated steel sheet, the composite effect between them is improved by the dowel action.

1 is an exploded perspective view of the casing and the concrete support plate constituting the assembled concrete-filled composite composite plate according to an embodiment of the present invention.
Figure 2a is a perspective view before the concrete pouring of prefabricated concrete filled composite composite plate according to an embodiment of the present invention.
Figure 2b is a perspective view after the concrete pouring of prefabricated concrete filled composite composite plate according to an embodiment of the present invention.
3 is a cross-sectional view taken along the line AA of FIG. 2A;
Figure 4 is a perspective view of one form of reinforcing ribs applied to the assembled concrete-filled composite composite plate according to an embodiment of the present invention.
5 is a perspective view of another form of reinforcing ribs applied to the assembled concrete-filled composite composite plate according to the embodiment of the present invention.
Figure 6a is an exploded perspective view of the casing and concrete support plate constituting the assembled concrete-filled composite composite plate according to another embodiment of the present invention.
Figure 6b is a cross-sectional view of the prefabricated concrete filled steel composite plate according to another embodiment of the present invention.

In the following the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the embodiments presented are exemplary for a clear understanding of the present invention is not limited thereto.

As shown in FIGS. 1 to 3, the perforated plate 10 of the present embodiment includes a casing 20 and a concrete support plate 30 inserted into the casing 20 and welded thereto. The casing 20 and the concrete support plate 30 are produced by bending several times as a plate-shaped steel material having a predetermined thickness.

The casing 20 includes a casing bottom plate 21 having a long side and a short side, a pair of casing side plates 22 and 22 that are bent and placed on the long side of the casing bottom plate 21 to face each other, and a casing side plate ( Casing flanges 23 and 23 which have a predetermined width at the ends of the ends 22 and 22, are horizontal to the casing base plate 21, and are cut at both ends to have a length shorter than the long sides of the casing side plates 22 and 22. Equipped with. Therefore, the casing 20 has a structure which is open in the height direction of the short side.

The reason why the height direction of the short side of the casing 20 is an open structure is to facilitate the assembly of the concrete support plate 30 into the casing 20 later.

The concrete support plate 30 has a concrete base plate 31 having the same area as the casing base plate 21, a pair of concrete side plates 32 and 32 which are installed at opposite short sides of the concrete base plate 21 to face each other, and concrete A concrete flange 33 is bent at the ends of the side plates 32 and 32 so as to be parallel to the concrete base plate 31 and positioned at both ends in contact with both ends of the casing flange 23.

Therefore, the concrete support plate 30 is inserted into the other short side direction through the opening in the one side short side side direction of the casing 20 is fixed by welding at the joint surface. And the opening portion in the height direction of the short side of the casing 20 may be closed by a copper plate (not shown) after the concrete support plate 30 is coupled.

When the concrete support plate 30 is assembled and installed in the casing 20 in this manner, a square frame is formed by a pair of casing flanges 23 and 23 and a pair of concrete flanges 33 and 33 on the upper surface thereof. The side walls of the concrete are simply implemented by the casing side plates 22 and 22 and the concrete side plates 32 and 32 to form a pouring space of concrete that is opened upward on the upper surface of the perforated plate 10 as shown in FIG. 2A.

The upper surface of the concrete support plate 30 is disposed in the transverse direction and the longitudinal direction is provided with a reinforcing bar 40 to prevent cracking by reinforcing the concrete against the repeated load and the temperature load. Therefore, the rebar 40 may be divided into rebars installed in the long side direction and rebars installed in the short side direction. At this time, the long side rebar is installed in the concrete support plate 30, the short side rebar is installed in the casing (20). The long side rebars installed in the concrete support plate 30 are welded to both ends of the concrete side plate 32 or welded to the surface of the concrete base plate 31 at regular intervals from the concrete base plate 31, and installed on the casing 20. Reinforcing bars are welded at both ends of the casing side plates 22 and 22 at regular intervals from the casing bottom plate 21 or welded to the casing bottom plate 21 surface.

Concrete 50 is poured into the upper surface of the concrete support plate 40 is filled. The concrete 50 is reinforced by the reinforcing bar 40 to form a concrete layer on the concrete support plate 30.

A reinforcing rib 60A or 60B is installed between the casing bottom plate 21 and the concrete bottom plate 31 as shown in FIGS. 4 and 5. The reinforcing ribs 60A or 60B may be made of a plate to form a lattice structure as shown in FIG. 4 or welded to the joint portion in a honeycomb structure as shown in FIG. 5.

On the other hand, the upper surface of the concrete 50 is provided with a plurality of angles 70 having a lifting hole (70a). At this time, the plurality of angles 70 are installed symmetrically from the center of the concrete 50 to lift the balance plate 10 in a balanced manner.

In addition, a stopper 80 may be further provided on the bottom surface of the casing bottom plate 21 of the casing 20 so that the perforated plate 10 does not leave the well-known beam in the long side direction.

Since the structure of the perforated plate 10 is constructed by bending the steel plate and the concrete support plate 30, the welding process can be significantly reduced, and thus manufacturing cost can be reduced.

In addition, by the structure in which the concrete support plate 30 is fitted into the casing 20, the material cost of the steel sheet is saved by forming sidewalls and flanges of the concrete without overlapping structures. In other words, the perforated plate 10 is assembled by inserting the concrete support plate 30 on the upper portion of the casing 20 to form a curing space of the concrete surrounded by the side wall and the floor to form a concrete layer, the overall amount of steel required This reduces the cost.

In addition, the perforated plate 10 is supported by the concrete support plate 30 is inserted into the inside of the casing 20 and at the same time fixed by welding improves the bonding stability and durability.

Figure 6a is an exploded perspective view of the casing and the concrete support plate constituting the assembled concrete-filled composite composite plate according to another embodiment of the present invention, Figure 6b is a cross-sectional view.

As shown in Figure 6a, 6b is a perforated plate according to another embodiment of the present invention, the perforated steel plate 90 is disposed on the upper surface of the concrete base plate 31 in the transverse direction. The perforated steel sheet 90 is formed of a strip-shaped steel sheet having a longer length than the width having a lower height than the concrete side plates 32 and 32, and holes 91 are formed at regular intervals along the longitudinal direction. The perforated steel sheet 90 is disposed between the concrete 50 and the concrete side plates 32, which are disposed so that the width thereof faces in the height direction, and is filled in a space surrounded by the casing side plates 22 and 22 and the concrete side plates 32 and 32. Increase the synthetic effect That is, the concrete 50 flows through the holes 91 to fill the holes 91, and the concrete 50 positioned on the left and right sides is continuous to separate the concrete 50 from the concrete base plate 31 by dry shrinkage by a dowel action. Effectively prevents it from becoming.

The longitudinal reinforcing bars 92 may be further disposed through the holes of some of the holes 91 formed in the transversely-holed steel sheet 90. The longitudinal reinforcement 92 reinforces the concrete 50 to which the cyclic load acts together with the perforated steel plate 90 arranged in the transverse direction. Thus, some of the holes 91 formed in the perforated steel sheet 90 are used for synthesis with the concrete 50 and the other holes are used for the through coupling of the longitudinal reinforcement 92.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention . The invention is not limited by the invention as such variations and modifications but only by the claims appended hereto.

20: casing
30: concrete support plate
40: rebar
50: concrete
70: angle
90: perforated steel sheet
92: longitudinal rebar

Claims (5)

delete delete delete A casing bottom plate 21 having a long side and a short side, a pair of casing side plates 22 and 22 that are bent and placed on the long side of the casing bottom plate 21 and have a constant height to face each other, and the casing side plates 22 and 22. It has a width at the end and is bent to be parallel to the casing base plate 21 and cut at a predetermined interval at both ends to have casing flanges 23 and 23 having a length shorter than the long side lengths of the casing side plates 22 and 22, respectively. Casing 20 made of steel having a structure that is open in the height direction of the;
Concrete base plate 31 having the same area as the casing base plate 21, a pair of concrete side plates 32 and 32 which are placed at both short sides of the concrete base plate 21 and oppose each other, and the concrete side plates 32 and 32 A concrete flange 33 which is bent at an end of the casing 20 in parallel with the concrete base plate 31 and positioned at both ends of the casing flange 23 in contact with both ends of the casing flange 23. Concrete support plate 30 of the steel material is inserted in the short side direction and joined by welding;
Reinforcing ribs 60A or 60B of a lattice structure or honeycomb structure provided between the casing base plate 21 and the concrete base plate 31;
It is arranged in the transverse direction on the upper surface of the concrete base plate 31, consists of a strip-shaped steel sheet longer than the width having a lower height than the concrete side plates (32, 32) and the holes 91 at regular intervals along the longitudinal direction (91) Hole formed steel sheet 90; And
Prefabricated concrete-filled composite composite plate characterized in that it comprises a concrete (50) is poured into the upper surface of the concrete base plate 31, reinforced by a perforated steel plate (90) and synthesized integrally with the concrete base plate (31). The method according to claim 4,
The prefabricated concrete-filled composite composite plate is characterized in that the longitudinal reinforcing bars are further disposed through the holes of some of the holes formed in the perforated steel sheet disposed in the transverse direction.

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