KR200337840Y1 - H shaped steel beam having a graded prestress introduction apparatus - Google Patents

Abstract

This design is H type steel with pre-stressing device which can introduce tension force step by step to temporary bypass bridge, prefabricated sidewalk or prefabricated bridge, etc. Regarding the installation method of steel temporary bridges in which a tension force is introduced and installed according to a load on a beam,

End tensioning devices are installed at both ends of lower flanges of steel, such as H-type steels, and central support devices are installed at the center of steel, and they are settled through each other with a number of steel bars or strands to install staged prestressing devices. After manufacturing the H-beams, these steel beams are mounted on the shifts and piers for the installation of temporary bridges, and the pre-stress is introduced to the H-beams by introducing tension to the steel rods or strands. When additional loads such as the above act on the steel bar or secondary steel tension or steel wire penetrating the concrete block installed in the end tensioning device to introduce additional tension force to respond to the additionally loaded load to the steel beam Complete the installation of the bridge.

By using the above installation method, the downward deflection caused by the weight of the steel beams is firstly applied to the H-beams of the steel temporary bridges. When the upper slab concrete of the double deck or sidewalk overpass is installed on the upper part of the steel temporary bridge for the passage of vehicles and pedestrians to prevent sag, the tension is applied to the H-shaped steel beam by using the steel wire or steel rod. By introducing the upper slab concrete of the slab or sidewalk bridge, the deflection caused by the loaded load is prevented from the deflection caused by the secondary force introduced to maximize the utilization of steel used in the temporary bridge. At the same time, the tension of the H-beams decreases as time passes and additional retension is applied when deflection occurs. The administration may be carried out in the maintenance level, and also has the advantage of being able to increase the length of the span hameuroseo introducing a tensile force on the steel beam-type H.

Description

H-shaped steel beam having a graded prestress introduction apparatus} with stepped prestress introduction device that can introduce tension force to steel construction bridge made of H-type steel according to loading condition

The present invention installs a stepwise prestressing device on H-shaped steel beams used for temporary bypass bridges, prefabricated sidewalks, or prefabricated bridges for temporary traffic or pedestrian traffic. Regarding the installation method of steel temporary bridge,

End tensioning devices are installed at both ends of lower flanges of steel, such as H-type steels, and central support devices are installed at the center of steel, and they are settled through each other with a number of steel bars or strands to install staged prestressing devices. After producing the H-beams, the steel beams are mounted on the shifts and piers for the installation of the temporary bridges, and the prestresses are introduced to the H-beams by first applying tension to the steel rods or strands, and then the upper part of the temporary bridges When a load such as pavement is additionally acted on, the steel bar is introduced by applying tension force to the H-shaped steel beam to cope with the additionally loaded load by tensioning the steel rod or strand that is penetrated to the concrete block installed in the end tension device. It is to install the temporary bridge.

The purpose of the present invention is to introduce the tension force to the H-beams used in the installation of steel temporary bridges and to prevent the deflection by introducing the tension to the H-beams according to the staged loading conditions according to the assembly and installation of the temporary bridges. To maximize the utilization of the steel used in the temporary bridges while improving the durability of the temporary bridges and at the same time, when the tension of the H-beams decreases and the deflection occurs, additional retension is required to maintain and maintain the bridges. In addition, the length of the span can be lengthened by introducing tension in the H-beams so that the bridge can be managed economically and effectively.

The conventional method of installing bridges made of steel is to install temporary beams by installing steel beams on pre-fabricated bridges and bridges, and as shown in FIG. It is hypothesized that deflection occurs when the loading of the load as shown in b occurs, and the deflection causes tensile stress on the H-beam steel beam 10. As the length of the temporary bridge becomes longer, the tensile stress becomes larger. This results in constraints. In addition, when such deflection occurs, there has been a problem in that a very cumbersome and continuous maintenance management has to be performed for additional temporary bridges in order to maintain bridges.

The present invention proposes to improve the above problems, by introducing prestressing step by step when installing temporary bridges and temporary walkway bridges to be installed, completing bridges with longer spans, reducing the overall steel usage and introducing prestresses by construction stage. By providing stability to steel beams that are easily deformed by providing the installation method that can maximize the use effect of steel temporary bridges, such as temporary bridges and footbridges.

1 is a view showing a staged prestressing device of the present invention.

Figure 2 is a view showing the end tensioning device of the staged prestressing device of the present invention.

3 shows the end tensioner of FIG. 2 from the side;

Figure 4 is a view showing the central support of the staged prestressing device of the present invention.

5 shows the central support of FIG. 4 from the side;

Figure 6a, b, c, d, e, f, g is a view showing a process of installing the steel temporary bridge using the H-shaped steel beam installed in the step-shaped prestress introduction device of the present invention to the H-type steel.

7 is a view showing the installation of a conventional temporary bridge.

<Description of Symbols for Main Parts of Drawings>

A: Steel temporary bridge B: Shifts and piers

10: H type steel beam 11: upper flange

12 abdomen 13 lower flange

14: anchorage 15: steel rod or strand

16 stud bolt 17 bolt connection

20 stepwise prestressing device

30: end tension device 31: vertical iron plate

32: concrete block 33: lower horizontal iron plate

34: reaction plate 35: upper horizontal steel plate

40: central support device 41: support

The present invention is to install the end tensioning device 30 on both side end sides of the lower flange 13 of the steel, such as H-shaped steel, and to install the central support device 40 in the center of the steel and then a plurality of steel bars or strands (15) to make the H-shaped steel beams (10) with a stepwise prestressed introduction device (20) installed through each other and then mounted these steel beams (10) to the alternating and pier (B) for the installation of temporary bridges Firstly, the tension force is introduced into the steel bar or the strand 15, and then the tension force is introduced into the H-shaped steel beam 10, and then a second load is applied to the upper part of the temporary construction bridge such as ascon pavement. The H-shaped steel beam 10 is provided with a tension force for tensioning steel rods or strands 15 penetrating the concrete blocks 32 installed in the end tension device 30 and the central support device 40 to correspond to the additionally loaded load. Steel temporary bridge introduced in It is characteristic to install (A).

Hereinafter, with reference to the accompanying drawings the configuration and operation of the present invention in detail as follows.

1 is a view showing a stepwise prestressing device of the present invention, the end tensioning device 30 on both sides of the lower flange 13 of the steel, such as H-shaped steel while installing the end tensioning device 30 in the concrete The block 32 is installed, the concrete block 32 is installed while the central support device 40 is installed at the center of the steel, and then a plurality of penetrating the end tension device 30 and the central support device 40 are passed through each other. The steel bar or the strand 15 is fixed to the end tensioning device 30 provided on both sides of the end by using the fixing unit 14, and the concrete block 32 installed in the end tensioning device 30 and the central support device 40. The H-shaped steel beam 10 provided with the stepwise prestressed introduction device 20 that is penetrated and fixed to each other by a plurality of steel rods or strands 15 in the production.

Forming the concrete block 32 in the end support device 30 and through-seating the steel rods or strands 15 is introduced into the secondary force when the additional load is later loaded on the H-shaped steel beam (10) In this case, the additional load is increased so that the secondary force is also increased accordingly, so that the concrete block 32 is additionally installed to support the increased tension force to support the tension force.

In addition, the steel rods or strands 15 penetrated through the end support device 30 and the central support device 40 are primarily used to introduce a tension force, and are used to introduce a tension force primarily. The load is simply to prevent the deflection due to dead load of the H-shaped steel beam 10 itself by simply using the anchorage (14) to the end support device 30, the tension force is introduced second The steel rods or strands 15 installed in order to penetrate the concrete blocks 32 to be fixed and supported, and the target for introducing the secondary tension force are those of a temporary bridge such as a perforated plate loaded on the steel temporary bridges A. This is to prevent the occurrence of deflection due to the loading of the load that is always loaded on the upper part, and to penetrate the steel bar or the strand 15 to the central support device 40 or to penetrate the concrete block 32. One is to support the steel bar or strand 15 to prevent the occurrence of sag, such as sagging and to maintain the distance between the steel line or the strand 15 to maintain the eccentric distance in which the correct tension is introduced Install.

2 and 3 is a view showing the end tensioning device of the stepwise prestress introduction device of the present invention, it is fixed downward in contact with the lower portion of the lower flange 13 in a certain distance inside the both ends of the H-shaped steel beam (10) Reaction plate having a plurality of anchorages 14 formed by welding the vertical steel plate 31 on both sides of the horizontal steel plate 33 and the horizontal iron plate 33 installed in a pair of up and down distances and fixing the steel rod or the strand 15. 34 is installed at one side of the horizontal iron plate 33 and the vertical iron plate 31 installed up and down so that the steel bar or strand 15 can be fixed to the reaction plate 34 using the fixing unit 14. One end of the box-shaped end tensioning device 30, but the end of the tensioning device 30 is installed so that the parts facing each other open, horizontal steel plate 33 is installed on the lower side of the box-shaped end support device 30 On the top of the scale) While installing the block 32, a plurality of through holes 18 that can penetrate the steel rods or the strands 15 are provided. The reaction force plate 34 is formed with a plurality of through holes 18, a part of the through holes 18 of the upper portion of the wire to fix the two end tension device 30 and the central support device 40 through each other Alternatively, the through hole 18 used to penetrate the stranded wire 15, and the through hole 18 formed at the lower side of the reaction plate 34 may pass through the through hole 18 formed in the concrete block 32 so as to penetrate each other. ) To penetrate each other to introduce secondary tension.

A plurality of stud bolts 16 are formed on the upper side of the horizontal iron plate 33, and concrete is poured thereon to form a concrete block 32. The steel plate 33 and the concrete block 32 are formed by the stud bolts 16. The strong adhesion to each other is installed so as to improve the adhesive force to support when a strong tension force acting on the steel wire or strand wire (15).

4 and 5 is a view showing the central support of the staged pre-stressed introduction device of the present invention, the upper and lower horizontal steel plates 33, 35 in the center of the H-shaped steel beam 10 and the abdominal support 41 connecting them to each other After installing the H-shaped steel which is installed) and then attached to the lower flange 13 of the upper horizontal steel plate 35 and the H-shaped steel beam 10, the lower horizontal steel plate 33 and the support 41 are mutually A concrete block 32 is formed on the plurality of stud bolts 16 installed on the lower horizontal steel plate 33 to meet a plurality of through holes 18 through which steel wires or strands 15 of a predetermined height pass. A plurality of through holes 18 are formed in the 41 to allow the steel wires or the strands 15 to penetrate. The through holes 18 formed on the upper side allow the steel wires or the strands 15 to penetrate and the through holes formed on the lower side. Coincides with the through hole 18 formed in the sphere 18 and the concrete block 32 To allow another steel wire or strand 15 to pass therethrough.

Figure 6a, b, c, d, e, f, g is a view showing a process of installing the steel temporary bridge using the H-shaped steel beam installed in the step-shaped prestress introduction device of the present invention to the H-type steel, a is H It shows that the shaped steel is manufactured, b is to show that the end tensioning device 30 is installed at both ends of the produced H-shaped steel, the central support device 40 is installed in the center, c is the installed Through a plurality of steel wires or strands 15 through a pair of end tensioning device 30 and the central support device 40 installed in the center portion connected to each other to show that the H-shaped steel beam 10 is manufactured, d is to introduce a tension force to the connection-seated steel wire or strand wire 15 to prevent sagging due to the weight of the H-shaped steel beam 10, e is a H-shaped steel beam (10) ) On the shift and piers (B) F is because the deflection occurs in the H-shaped steel beams 10 due to the floor load due to the installation of the perforated plate, pavement concrete, safety facilities, or ascon on the top of the hypothesized H-shaped steel beams 10 In order to prevent the occurrence of deflection, the end tensioning device 30 and the concrete block 32 installed in the central support device 40 shows a plurality of steel wires or strands 15 penetrating each other, g is a steel wire installed through Or it introduces a tension force to the strand 15 and fixed to fixation using the anchorage 14 to introduce a secondary tension force to the H-shaped steel beam 10 shows the process of completing the installation of the steel temporary bridge (A) .

As described above, according to the technique of the present invention, by constructing a stress introduction system for each temporary construction step or bridge overpass that is fabricated using steel beams, the construction of economical bridges and economical construction of the bridges are possible. By lengthening the limit of the bridge length further, the number of bridges can be reduced and aesthetically beautiful appearance can be secured.In the case that the load capacity decreases with time, the tension force can be re-introduced by utilizing the installed steel wire or stiffness. It is an economical and effective method of installing temporary bridges that can extend the service life of temporary bridges.

Claims (5)

H type steel bore with end tensioning devices on both ends of lower flange of H type steel and central supporting device in the center of steel, and then staged prestressed introduction device which is penetrated and fixed with a plurality of steel rods or strands. H-shaped steel beams with stepped prestressing device that can introduce tension force to steel bridges made of H-shaped steels, which can be introduced step by step according to the state of loading. The method of claim 1, The end tensioning device is installed in contact with the lower portion of the lower flange in a certain distance inside the end of both ends of the H-shaped steel beam horizontally installed in a pair of up and down horizontal steel plate and a vertical steel plate on both sides of the horizontal steel plate and a steel rod or It is installed on one side of horizontal steel plate and vertical steel plate installed up and down with a reaction plate to fix the stranded wire, but is installed on the outer end side of the H-shaped steel beam in the form of a box to fix the steel rod or the stranded wire The end supporting device is installed so as to be open to each other, and then installs a concrete block on a horizontal steel plate in which a plurality of stud bolts are formed up to a predetermined height of the reaction plate, and penetrates steel bars or strands. On the steel temporary bridge made of H-type steel, which is characterized by the installation of a plurality of through holes. Arbitration state and the step-by-step by installing the prestressing phase introduction device that can introduce a tensile force along the H-shaped steel beam. The method of claim 1, The central support device is installed in the center of the H-shaped steel beam H-shaped steel consisting of a support bar formed with a plurality of upper and lower horizontal steel plates and a plurality of abdominal through-holes connecting them to each other, the upper horizontal steel plate to the lower portion of the H-shaped steel beam It is characterized by the fact that a large number of through holes are formed so that steel wires or steel wires can penetrate while forming concrete blocks by casting concrete of a certain standard on the lower horizontal steel plate installed with a plurality of stud bolts installed on the flange and meeting with the support. H type steel beams with stepped prestressing device that can introduce tension force to the steel temporary bridges made of H type steels according to the loading condition. The method according to any one of claims 1 to 3, Steel rods or strands, which are settled through a plurality of end tensioning devices and central support devices installed in the H-shaped steel beams, are introduced into the H-shaped steel beams to prevent sagging due to their own weight. H type steel beam with stepped prestress introduction device that can introduce tension force in step according to the loaded state in the steel temporary bridge made of H type steel. The method according to any one of claims 1 to 3, The steel rods or strands, which have been fixed through the end tension device installed on the H-shaped steel beams and concrete blocks installed in a certain standard on the central support device, are installed on the steel temporary bridges by installing H-shaped steel beams on bridges and shifts. Steel made of H-type steel, characterized by introducing tension to H-beams by introducing tension to prevent the occurrence of secondary deflection caused by floor loads such as perforated plates, paving concrete, safety facilities, or asphalt concrete H-shaped steel beams equipped with a stepwise prestressing device that can introduce tension to the temporary bridges according to the loading conditions.