KR100279018B1 - Construction method of hollow slab bridge - Google Patents

Abstract

The present invention relates to a construction method of a hollow slab bridge in which a long span bridge can be economically and safely constructed by filling a foamed synthetic resin at a hollow hollow portion in a cross section of a slab type bridge. 10) The formwork (1) is installed at the upper end, and the hollow slab (20) inside the formwork as the lower portion 22 located directly below the hollow portion 21 and the upper portion (23) located thereon When the construction is divided, but the reinforcement of the lower portion 22 when the fixed anchors 30 are arranged to protrude from the boundary surface, and then uncured concrete is poured to form the lower portion 22 first, the lower portion ( 22, a hollow member 40, which is manufactured as a foamed synthetic resin, is disposed in the longitudinal direction at the position of the hollow portion 21 on the upper surface of the hollow member 40, and the fixing means 50 surrounds the upper portion of the hollow member 40 with a fixed anchor. 30s It was fixed at both ends, a construction method for casting to complete a hollow slab bridge up to a certain predetermined height the uncured concrete again.

Description

Construction method of hollow slab bridge

The present invention relates to a construction method of a hollow slab bridge in which a long span bridge can be economically and safely constructed by filling a foamed synthetic resin at a hollow hollow portion in a center of a cross section of a slab type bridge.

In general, the "slab bridge" is a bridge that can be installed economically in a relatively short span by installing the slab directly without installing a beam for supporting a separate upper plate in the upper end of the bridge.

However, in recent years, by forming a plurality of hollows in the center of the slab to reduce the weight of the concrete, which is a disadvantage of the general slab bridge, and increase the cross-sectional coefficient to support the load efficiently, it can be economically constructed even in the bridge of longer span A lot of hollow slab bridges are being built.

The conventional hollow slab bridge is a thin steel pipe or synthetic resin at the position where the hollow portion 21 is formed during the reinforcement of the reinforcing bar inside the formwork 1 installed on the pier 10, as shown in Figure 1a and 1b A buried hollow tube 42, such as a tube, is placed and fixed to formwork, lower reinforcing bars, etc. by surrounding the upper portion of the hollow tube 42 with an iron wire 52, and set to a predetermined height higher than the upper portion of the hollow tube 42. After pouring uncured concrete until the construction, it is cured and demolded.

The construction method of the conventional hollow slab bridge is first, the phenomenon in which the hollow tube 42 rises to the upper part (injury phenomenon) occurs in the process of placing the uncured concrete, the hollow tube is difficult to secure the position of the original slab It is difficult to maintain the design thickness has a problem that it is difficult to maintain the design strength.

Second, in the conventional construction method of the hollow slab bridge, since both ends of the steel wire 52 for fixing the hollow tube 42 is fixed to the lower reinforcement buoyancy generated when placing the concrete in the lower portion and then the concrete in the upper portion Due to this, there is a problem in that the hollow tube rises to the upper side and is first cast and acts on the lower part concrete that is not cured.

Third, the conventional hollow slab bridge construction method is difficult to fill the concrete because the hollow tube 42 is placed directly below the hollow portion, if the connection is poor, there is a weak part of the structure, such as mortar flows, and also when long-term use Hollow material constructed as a steel pipe material has a problem that it is corroded and can not perform its function.

Therefore, the object of the present invention is to use the foamed synthetic resin at the hollow portion to install the lower portion and the upper portion of the hollow portion, the hollow slab so that the upper portion located in the upper portion of the hollow portion is formed exactly as the original design thickness It is to provide the construction method of teaching.

Another object of the present invention is to install the hollow slab bridge to prevent the cracks in the lower part concrete when the upper part concrete is placed by using the foamed synthetic resin at the hollow part to separate the lower part and the upper part. To provide.

Another object of the present invention is to use a foamed synthetic resin at the hollow part to separate the lower part and the upper part of the hollow part to facilitate the filling of concrete directly below the hollow part so as to prevent partial weakening of the structure. To provide a construction method of a hollow slab bridge.

Figure 1a is a cross-sectional view showing a conventional slab bridge

Figure 1b is an enlarged partial cross-sectional view of a conventional slab bridge

Figure 2a is a longitudinal cross-sectional view showing a hollow slab bridge of the present invention

Figure 2b is a cross-sectional view showing a hollow slab bridge of the present invention

3a to 3d show the construction sequence of the present invention hollow slab bridge,

Figure 3a is an illustration showing the fixed anchors disposed inside the formwork

Figure 3b is an illustration showing the concrete pouring in the lower portion so that the fixed anchors protrude

Figure 3c is an exemplary view showing a state in which the hollow member is placed on the upper surface of the lower portion fixed with a fixing means

3d is an exemplary view showing a state in which the upper part concrete is poured directly on the hollow member

Figure 4a is an exemplary view showing a fixing means of the present invention

Figure 4b is an exemplary view showing another embodiment of the fixing means of the present invention

<Description of the symbols for the main parts of the drawings>

1: Formwork 10: Pier 20: Hollow Slab

21: hollow part 22: lower part 23: upper part

30: fixed anchor 40: hollow member 41: mounting plate

50: fixing means 51: band 52: steel wire

Hereinafter, the technical configuration of the present invention in detail.

The construction method of the hollow slab bridge of the present invention, as shown in Figure 2a to 3d, the formwork 1 is installed on the upper end of the piers 10, the hollow slab 20 in the formwork of the hollow portion 21 The construction is divided into a lower portion 22 positioned at the lower portion and an upper portion 23 positioned at the upper portion thereof, and the fixed anchors 30 are disposed to protrude from the boundary surface during the reinforcement of the lower portion 22. , By pouring uncured concrete to form the lower portion 22 first, the hollow member 40 made of foamed synthetic resin on the upper surface of the lower portion 22 is disposed in the longitudinal direction at the position of the hollow portion 21 However, the fixing means 50 surrounds the upper part of the hollow member 40 and is fixed to both ends of the fixing anchors 30, and then the unhardened concrete is poured to a predetermined predetermined height to complete the hollow slab bridge. It is characterized by.

That is, in the present invention, the lower portion 22 is pre-installed, but after the fixing anchors 30 are buried in the upper surface and cured, the hollow member 40 is placed and fixed to the fixing anchor with the fixing means 50, and then the upper side. Post-construction of part 23 is carried out.

Here, the expandable synthetic resin forming the hollow member 40 is very light in weight and easy to process, compared to the conventional hollow tube 42, and very easy to handle in the field, it is possible to change the cross section. Therefore, it is a great help to improve workability in the field.

The foamable synthetic resin may be a material of the hollow member 40, but polystyrene foam is very economical and universal.

On the other hand, the cross-sectional shape of the hollow member 40, unlike the conventional circular, as shown in Figures 2b to 4b, preferably made of a square. This helps to weaken the floating force because the lower surface of the hollow member 40 is in close contact with the upper surface of the lower portion 22.

As shown in Figure 4a, the fixing means 50 may be made of a band 51 having a certain extent. This can prevent the upper edge portion from being cut by the force acting upon the floating of the hollow member 40 by having the fixing means 50 to some extent.

In addition, the fixing means 50 may be made of an iron wire 52, as shown in Figure 4b. In this case, in order to prevent the upper edge portion from being cut when the hollow member 40 floats, it is necessary to pad the patch plate 41.

On the other hand, when the adhesion force is insufficient at the interface between the lower portion 22 and the upper portion 23, unlike the prior art in which the lower portion and the upper portion is structurally separated to reduce the overall strength, the present invention is a hollow portion 21 As a reference, the lower part 22 and the upper part 23 are separated and placed to construct a hollow slab bridge as an important technical feature.

In the present invention, the fixing anchors 30 and the fixing means 50 not only serve to prevent injuries of the hollow member 40, but also are embedded in the lower part 22 and the upper part 23 to be structurally integrated. It also plays a huge role in securing sex.

The present invention constituted as described above, first, as the fixing means 50 fixed at both ends to the fixing anchors 30 surrounds the upper part of the hollow member 40 and fixes the concrete after pouring the concrete. The hollow member 40 prevents the floating phenomenon to rise up so that the upper portion 23 positioned on the upper portion of the hollow portion 21 is formed exactly as the original design thickness, thereby maintaining the desired design strength Has,

Second, the hollow slab 20 is divided into a lower portion 22 positioned directly below the hollow portion 21 and an upper portion 23 positioned thereon, where concrete is first placed on the lower portion 22. After curing by hardening, the foamed synthetic resin is placed on the upper surface and fixed by the fixing means 50, thereby preventing cracks in the concrete of the lower portion 22 during the concrete placing of the upper portion 23. Has,

Third, the hollow slab 20 is divided into a lower portion 22 positioned directly below the hollow portion 21 and an upper portion 23 positioned above the concrete slab. Therefore, since the concrete is not filled directly below the hollow portion 21, it has an effect of preventing the occurrence of partial weakening portion,

Fourth, the hollow member can be easily processed to change the cross-section to be appropriately processed structurally to suppress the cracks, there is an advantage of easy handling in the field because it is light.

As described above, the construction method of the hollow slab bridge of the present invention is to ensure that the upper portion located in the upper portion of the hollow portion maintains a predetermined design strength, and not only the crack is not generated in the lower portion located in the lower portion of the hollow portion. In addition, it is very useful to be constructed so that a partial weak part does not occur directly under the hollow part.

Claims (4)

The formwork 1 is installed at the upper end of the piers 10, and the hollow slab 20 is disposed at the lower portion 22 of the hollow portion 21, and the upper portion 23 is located at the upper portion 23. The construction is divided into), but the fixed anchors 30 are projected on the interface when the reinforcement of the lower portion 22 is reinforced, and then the uncured concrete is poured to form the lower portion 22 first, and then the lower side. On the upper surface of the portion 22, the hollow member 40, which is manufactured as a foamed synthetic resin, is disposed in the longitudinal direction at the position of the hollow portion 21, and the fixing means 50 surrounds the upper portion of the hollow member 40. After fixing to both ends of the fixed anchors (30), placing the uncured concrete to a predetermined predetermined height again to form the upper portion (23), the construction method of the hollow slab bridge, characterized in that completed through the curing and demoulding process. The method of claim 1, wherein the hollow member 40 is made of polystyrene foam, the cross-sectional shape of the hollow slab bridge construction method characterized in that the manufacturing. The method of claim 1, wherein the fixing means (50) is a construction method of the hollow slab bridge, characterized in that consisting of a band (51) having a certain extent. The method of claim 1, wherein the fixing means 50 is made of a steel wire 52, the hollow slab characterized in that the padding plate 41 is padded on the upper edge of the hollow member 40 to which the iron wire 52 Method of construction