KR101934874B1 - Deck plate comprised of ultra high strength fiber reinforced concrete and construction method using thereof - Google Patents

Abstract

The present invention relates to a deck plate comprising super high strength fiber reinforced concrete and, more specifically, to a super high strength fiber reinforced concrete deck plate and a construction method using the same, wherein a deck plate made of super high strength fiber reinforced concrete is completely installed by being simply mounted on a girder located in the upper portion of a pier. Moreover, a vertical reinforcement material is formed in a cantilever type super high strength concrete deck plate simply mounted on an outer girder and an inner girder of the bridge to extend an outer length of the cantilever type super high strength concrete deck plate. Therefore, a usable area of a bridge upper plate can be extended.

Description

Technical Field [0001] The present invention relates to an ultra high strength fiber reinforced concrete deck plate,

The present invention relates to a deck plate made of ultra-high strength fiber-reinforced concrete and a method of constructing the deck plate. More particularly, the present invention relates to a deck plate made of ultrahigh strength fiber reinforced concrete, It is possible to form a vertical stiffener on a super high strength concrete deck plate of a cantilever type which is simply mounted on an outer girder and an inner girder of a bridge to further increase the outside length of the cantilever type super high strength concrete deck plate, Reinforced concrete deck plate that can be widened, and a construction method using the same.

Generally, as a method of constructing a bridge at a construction site, there is a method of fixing a square pipe to the upper part of a girder installed at the upper part of a pier, welding a plywood form on the upper part of the pier, It was complicated and took a lot of construction time, as well as a lot of safety risk factors.

To improve this, a technique for installing a precast deck plate as a permanent form on the upper surface of a girder, synthesizing slab concrete on the precast deck plate to easily install a cantilever portion installed on the outermost girder while installing a bridge slab A precast deck plate for a cantilever side composite slab and a bridge construction method using the same, which is a pure shear connection without a top bar so as not to interfere with the laying work of a reinforcing bar for a slab, is disclosed in Korean Patent Registration No. 10-0978882 The present invention relates to a precast deck plate for a composite slab, which is provided on a cantilever portion which is formed so as to protrude from the upper surface of a concrete panel and which can be stably installed without being conducted even when installed on the outermost bridge girder. Mold for There are may not use the gaseoljae was promoting workability and workability.

However, in the case of the pre-cast deck plate for composite slab, the top bar is omitted. However, in order to form the deck plate with the general concrete, the cast iron and the reinforcement steel have to be used. When the precast deck plates are coupled to each other, It is troublesome to bend the ends and to make mechanical connection with other cast iron rods. In order to overcome such inconvenience, a steel wire insertion hole formed perpendicularly to the longitudinal direction of the rectangular concrete panel constituting the deck plate is formed to connect the side end shear keys of the concrete panel to each other, A pre-cast deck plate and a method of constructing a concrete slab using the same, which is capable of connecting side ends of a concrete panel by means of connection and fixing, A steel wire embedded in the longitudinal direction of the concrete panel is extended and protruded inside the steel wire connecting grooves so as to be interconnected with the steel wire of the other concrete panel. In order to form the panel with the general concrete, While increasing its own weight The total thickness of the bridge slab had the disadvantage of keojyeoya, as have the least thickness, had a certain limit to hold the projecting length of the cantilever portion is provided on the outermost girder in accordance with these increases, the weight of the panel itself.

Korean Patent Registration No. 10-0978882 Korean Patent Registration No. 10-1652664

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems of the prior art, and an object of the present invention is to provide a deck plate of a permanent form type with ultrahigh strength fiber reinforced concrete, Reinforced concrete deck plate and the ultra-high-strength fiber-reinforced concrete deck plate.

Further, according to the present invention, a vertical stiffener is formed on a cantilever-type ultra-high strength concrete deck plate that is mounted on an outer girder of a bridge to further increase the lateral outside width of the cantilever type ultra high strength concrete deck plate, It is to provide a widening.

In addition, the present invention provides a cantilever-type ultrahigh strength concrete deck plate at a lower portion thereof with a supporting base to provide an extended length of the cantilever-type ultrahigh strength concrete deck plate in the lateral direction outside.

The present invention is characterized in that an anti-shear key hole is formed at both ends of an ultra-high strength fiber-reinforced concrete deck plate that is simply mounted on an inner girder and an inner girder of a bridge so as to allow a shear key on the upper portion of the inner girder to pass therethrough, Reinforced concrete deck plate is formed with a hole through which a shear key on the upper part of the girder can pass, and the ultra-high strength fiber-reinforced concrete deck plate comprises 0.5 to 1.1 wt% of ordinary sand, 0.3 to 1.1% by weight of cement, 0.1 to 0.5% by weight of filler, 0.05 to 0.3% by weight of silica fume, 0.05 to 0.20% by weight of meta kaolin, 0.05 to 0.15% by weight of LCD waste glass, 0.1 to 0.3% by weight of blast furnace slag, 0.2 to 0.4 wt%, a water reducing agent 0.002 to 0.007 wt%, a shrinkage reducing agent 0.002 to 0.007 wt%, and an extender 0.002 to 0.005 wt% It relates to a discrete deck plate.

Further, the present invention is characterized in that an anti-shear-key hole is formed at both ends of an ultra-high strength fiber-reinforced concrete deck plate which is simply mounted on an inner girder and an inner girder of a bridge so as to allow shear keys on the inner girder to pass therethrough, Reinforced concrete deck plate of the superstructure fiber reinforced concrete deck plate is provided with a hole through which the shear key of the upper portion of the girder can pass, Reinforced concrete deck plate comprises 0.5 to 1.1% by weight of ordinary sand, 0.3 to 1.1% by weight of cement, 0.1 to 0.5% by weight of filler 0.05 to 0.3% by weight of silica fume, 0.05 to 0.20% by weight of meta kaolin, 0.05 to 0.15% by weight of LCD waste glass, Reinforced concrete, characterized in that the blast furnace slag is formed of 0.1 to 0.3% by weight of blast furnace slag, 0.2 to 0.4% by weight of blended slag, 0.002 to 0.007% by weight of water reducing agent, 0.002 to 0.007% by weight of shrinkage reducing agent and 0.002 to 0.005% Deck plate.

Further, in the super high strength concrete deck plate of the cantilever type which is simply mounted on the inner girder and the outer girder of the bridge, both ends of the vertical stiffener installed on the upper part of the outer girder may be burdened by the deck plate in the direction of the inner girder The reinforced bars or tensile untied tendons are arranged on the upper side of the vertical stiffener so as to correspond to the bending tensile force and one end of the cantilever type ultra high strength concrete deck plate which is simply mounted on the upper side of the inner girder And a hole through which the shear key on the upper portion of the girder passes can be formed by the anti-shear-key hole of another ultra-high strength fiber-reinforced concrete deck plate which is butted against each other without a separate connection, The cantilever- Reinforced concrete deck plate is formed with a shear-key hole through which the shear key of the outer girder is passed. The cantilever-type ultrahigh strength fiber reinforced concrete deck plate comprises 0.5 to 1.1% by weight of ordinary sand, 0.3 0.1 to 0.5 wt% of filler, 0.05 to 0.3 wt% of silica fume, 0.05 to 0.20 wt% of meta kaolin, 0.05 to 0.15 wt% of LCD waste glass, 0.1 to 0.3 wt% of blast furnace slag, Reinforced concrete deck plate is characterized in that the decking plate is formed of 0.002 to 0.007 weight% of water reducing agent, 0.002 to 0.007 weight% of shrinkage reducing agent, and 0.002 to 0.005 weight% of swelling agent.

(1) One end of a superstructure fiber-reinforced concrete deck plate of a simple mounting type on the inner side of a bridge girder and an inner side girder is connected to the upper part of the inner girder by a simple The other end of the superstructure fiber decked concrete deck plate is fixed simply on the upper part of the adjacent inner girder. The superstructure fiber decked concrete deck plate is passed through the shear key on the upper side of the inner side girder Or when a plurality of inner girders are widened due to a wider bridge width, the central portion of the simple superstructure fiber reinforced concrete deck plate is simply mounted on the upper portion of the inner girder while the shear hole of the girder is located at the upper portion of the inner girder And a simple mounting type of seconds Passing the shear keys on the upper side of the inner girder between the anti-shear holes formed on both ends of the high strength fiber-reinforced concrete deck plate.

(2) A cantilever-type ultra-high-strength concrete deck plate on which a vertical stiffener is formed is simply mounted on the upper part of the inner girder by passing the shear key on the upper part of the inner girder through the anti- A concrete high deck concrete deck plate of a cantilever type is attached to the inner girder and the inner girder so that the shear key located on the upper part of the girder is formed by the anti-shear hole of the reinforced concrete deck plate, A step of mounting an ultra high strength concrete deck plate of the cantilever type on the upper side of the inner girder and the outer girder on the opposite side of the super high strength fiber reinforced concrete deck plate mounted on the outer girder and mounting the cantilever type.

(3) Repeatedly installing the ultrahigh strength concrete deck plate according to the above (1) to (2) in the longitudinal direction of the bridge,

(4) When super high strength concrete deck plate installation is completed according to (1) to (3), reinforcement is placed on the upper part of the super high strength concrete deck plate. Part of the cast iron reinforcement passes through the through hole of the vertical reinforcement. Reinforced concrete deck plate is completed by laying a slab concrete on top of an ultra-high-strength concrete deck plate to complete a bridge top plate.

According to the present invention, there is an effect of simple installation of the ultra-high strength fiber-reinforced concrete deck plate on the upper part of the girder and simple jointing between the ultra-high strength fiber-reinforced concrete deck plate and the installation is simple and quick.

Further, according to the present invention, a vertical stiffener is formed on a cantilever-type ultra-high strength concrete deck plate that is mounted on an outer girder of a bridge to further increase the lateral outside width of the cantilever type ultra high strength concrete deck plate, There is a widening effect.

In addition, the present invention has the effect of extending the length of the cantilever type ultrahigh strength concrete deck plate to the outside in the transverse direction by providing a support base at the lower part of the cantilever type ultra high strength concrete deck plate.

1 is a view showing a construction state of a precast deck plate for a conventional cantilever-
Fig. 2 is a perspective view showing that the dividing end provided in the longitudinal direction of the conventional precast deck plate is connected. Fig.
Figs. 3 (a) and 3 (b) are perspective views of a superstructure fiber reinforced concrete deck plate of the double-end mounting type which is simply mounted on the inner girder and the inner girder in the present invention
Fig. 4 (a) is a perspective view of a cantilever type ultra-high strength concrete deck plate that is mounted on an outer girder and an inner girder of a bridge in the present invention
Fig. 4 (b) is a cross-sectional view of a part of a concrete slab superposed on a cantilever type super high strength concrete deck plate placed on an outer girder and an inner girder of a bridge, and a super high strength fiber reinforced concrete deck plate Degree
5 is a cross-sectional view of a cantilever-type ultra-high strength concrete deck plate in a state in which a support is provided at the lower part of the present invention
6 is a perspective view of an ultra-high-strength fiber-reinforced concrete deck plate placed on a bridge girder according to the present invention.
7 (a) and 7 (b) are a partial perspective view and a cross-sectional view showing a state in which super high strength concrete deck plates are coupled to each other in the sulfur direction

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 is a view showing a construction of a precast deck plate for a conventional cantilever-joined slab, and FIG. 2 is a perspective view showing that a dividing end provided in a longitudinal direction is connected to a conventional precast deck plate.

As shown in Fig. 1, the precast deck plate 50 for the cantilever side composite slab is designed such that its inner end is over the upper surface of the inner girder 21 mounted on the upper part of the pier 40, It is further extended in the transverse direction beyond the outermost girder 22 over the inner girder 21 so as to extend over the upper surface of the outermost girder 22 so that the inside of the composite slab precast deck plate 50 Cast iron rods 52 which are arranged in a longitudinal direction at a predetermined spacing distance are projected in the form of a ring on the end face of the precast deck plate 50 for composite slabs, The pre-cast deck plate 50 for composite slabs is integrally joined and structured by a structural mechanical connection with the shape steel rope 52, and is formed on the inner girder 21 and the upper portion of the inner girder 21 The pre-cast deck plate 50 for a composite slab to be mounted is also connected to a pre-cast deck plate 50 for a composite slab by a structural mechanical connection with a ring-shaped main steel bar 52 having a ring- The concrete slab pre-cast deck plate 50 is made of an ordinary concrete, and the pre-cast deck plate 50 for composite slab is used as a pre-cast deck plate for composite slabs It is necessary that the cast iron rope 52 should be laid in the composite slab precast deck plate 50 in order to cope with the bending tensile force while increasing the thickness of the composite slab 50 and the precast deck plate 50 for composite slab, At the end of the plate 50, the precast deck plates 50 are integrated with each other To this it was having to connect the jucheolgeun 52 and jucheolgeun 52 of annular form.

FIG. 2 is a perspective view of a conventional pre-cast deck plate in which longitudinally divided end portions are connected to each other. FIG. 2 is a perspective view of a concrete panel 11 and a concrete panel 11, The upper end of the concrete panel 11 is connected to the upper end of the girder so that the front end pocket portion of the concrete panel 11 is divided into two halves so as to form a divided end portion 15, 15 are formed at predetermined intervals and a steel wire 17 embedded in the longitudinal direction of the concrete panel 11 is extended and protruded inside the steel wire connecting grooves 16 so that the steel wire connecting grooves 16 of the concrete panel 11 The steel wire 17 that extends and protrudes from the steel wire connecting groove 16 is made of a general steel wire or a reinforcing steel or the like. The concrete panel 11 and the concrete panel 11 are integrally joined to each other by using the steel wire 17 and the concrete panel 11 is thickened by forming the concrete panel 11 using the tubular concrete The concrete panel 11 and the concrete panel 11 have to be integrally connected to the steel wire 17 as well.

3 (a) and 3 (b) are perspective views of an ultra-high strength fiber-reinforced concrete deck plate 100 which is simply mounted on the inner girder 21 and the inner girder 21 in the present invention. In the present invention, the super high strength fiber reinforced concrete deck plates 100, 200 and 300 are simply mounted on the bridge girders. Depending on the placement positions of the ultra high strength fiber reinforced concrete deck plates 100, 200 and 300, In order to more clearly distinguish the deck plates 100, 200 and 300, an ultrahigh strength fiber reinforced concrete deck plate which is simply mounted on the upper part of the inner girder 21 and the inner girder 21 is a simple mounting type ultra high strength fiber reinforced concrete deck The ultra high strength fiber reinforced concrete deck plate called plates 100 and 200 and simply mounted on the upper part of the inner girder 21 and the outer girder 22 is called a cantilever type ultra high strength concrete deck plate 300 do.

FIG. 3 (a) is a perspective view of an ultrahigh strength fiber reinforced concrete deck plate 100 in which a simple mounting type ultrahigh strength fiber reinforced concrete deck plate 100 is simply mounted on an upper portion of an inner girder 21, Reinforced concrete deck plate 100 formed at both ends of the single-girder type ultrahigh-strength fiber-reinforced concrete deck plate 100 and other shears The holes capable of passing the shear keys 23 located above the girders are formed by the anti-shear key holes 102, 202, and 302 of the high strength fiber reinforced concrete deck plates 100, 200, and 300. In addition, the upper surface of the ultralight high strength fiber reinforced concrete deck plate 100 of the simple installation type forms the hooking wire 101 so as to increase the adhesion force with the slab concrete installed on the upper side.

3B is a view showing a state where a plurality of inner girders 21 are used. In the present invention, although not shown in the drawing, the center portion of a simple installation type ultra high strength fiber reinforced concrete deck plate 200, The shear key 23 located at the upper part of the inner girder 21 is passed through the upper shear key hole 203 of the girder while being simply mounted on the upper part of the inner girder 21 and the super high strength fiber reinforced concrete deck plate 202 and 302 of the ultra-high strength fiber-reinforced concrete deck plates 100, 200 and 300 as well as the anti-shear-key holes 202 formed at both ends of the fiber- Thereby forming a hole through which the shear key 23 can pass. In addition, the upper surface of the ultralight high strength fiber reinforced concrete deck plate 200 in the simple installation type forms the hooking wire 201 so as to increase the adhesion force with the concrete placed on the upper side.

In order to satisfy the mechanical characteristics of the super high strength fiber reinforced concrete deck plates 100, 200 and 300 of the present invention, 0.5 to 1.1% by weight of ordinary sand, 0.3 to 1.1% by weight of cement, 0.1 to 0.5 The blending amount of the blending slurry is 0.2 to 0.4 wt%, the reducing agent is 0.002 to 0.007 wt%, the silica fume is 0.05 to 0.3 wt%, the meta kaolin is 0.05 to 0.20 wt%, the LCD waste glass is 0.05 to 0.15 wt% 0.002 to 0.007% by weight of a shrinkage reducing agent, and 0.002 to 0.005% by weight of an expanding agent. The ultra high strength concrete may include steel fiber or synthetic fiber, and the steel fiber or synthetic fiber may be included in an amount of 1.0 to 2% of the concrete volume. The steel fiber or synthetic fiber may have a diameter of 0.2 to 0.5 mm, a length of 13 to 30 mm, and a shape factor of 60 to 90.

Although not shown separately in FIGS. 3 (a) and 3 (b), if necessary, a lattice-shaped welding wire mesh may be installed inside the ultra-high strength fiber reinforced concrete deck plates 100, 200 and 300 to further increase the bending tensile force You may.

The present invention relates to a bridge joint structure using ultra high strength concrete deck plates (100, 200, 300), wherein a girder is arranged on an upper surface of an alternating or piered bridge, a super high strength concrete deck plate is simply mounted on the upper surface of the girder, 200 and 300 are not required to be structurally mechanically connected to each other using a steel wire or the like between the super high strength concrete deck plates 100, 200 and 300 as in the prior art, and the thickness of the super high strength concrete deck plates 100, 200, The thickness of the bridge top plate, which is entirely made of concrete, can be made thinner, thereby forming a permanent form that can be structurally stable and can be quickly constructed.

4 (a) is a perspective view of a cantilever-type ultrahigh strength concrete deck plate 300 mounted on a bridge inner girder 21 and an outer girder 22. Fig. 4 (b) Sectional view of the slab concrete installed on the super high strength concrete deck plate 300 of the cantilever type mounted on the girder 22 and the inner girder 21 and the ultra high strength concrete deck plates 100 and 200 of the simple installation type, 5 is a cross-sectional view of a cantilever type ultra high strength concrete deck plate 300 in a state in which a support table 400 is installed below the cantilever type ultra high strength concrete plate 300, The vertical stiffener 310 is formed to bear the momentum applied to the deck plate 300. The vertical stiffener 310 includes at least a cantilever type ultra-high strength concrete deck plate The length of both ends of the vertical stiffener 310 installed on the upper part of the outer girder is set to be larger than that of the deck plate 300 in the direction of the inner girder, Or more, thereby ensuring structural stability. The vertical stiffener 310 formed on the cantilever-type ultrahigh strength concrete deck plate 300 partially burdened with the momentum applied to the upper portion of the bridge outer girder 22, The outer side length of the bridge can be made longer, thereby widening the use area of the bridge top plate.

Generally, the height of the vertical stiffener 310 is about 50 to 80 mm. In this case, a hook wire 301 is installed on the vertical stiffener 310 in the same manner as the upper surface of the cantilever-type superhigh strength concrete deck plate 300, Increase the adhesion with slab concrete. A circular hole 312 is formed in advance as a space through which a cast iron can pass through due to a high degree of vertical stiffener 310. In order to effectively cope with the bending tensile force applied to the vertical stiffener 310, When the cantilever is not long and the high bending tensile force is small, generally used reinforcing bars are disposed. When the cushion length is long and the high bending tensile force is large, In order to install the untightened tendon 311 using the untightened unde tent 311, it is necessary to previously form a configuration through which the untended tendon 311 passes when the vertical stiffener 310 is formed, After the tension 311 is inserted, a predetermined tensile force is applied, and then the wedge is fixed to both ends of the untended tendon 311.

When the externally extended length of the ultralight high strength concrete deck plate 300 of the cantilever type is too long to support the bending tensile stress as the vertical stiffener 310, a cantilever type ultra high strength concrete deck plate 300 to support the bending tensile stress together with the vertical stiffener 310. [ The supporter 400 is formed with a rectangular waved space capable of receiving the end portion of the inclined material fixing nut rod 411 under the vertical stiffener 310 and is fixed to the wobbled space at an angle, So that the end portion of the slope material fixing nut rod 411 is made to idle without slipping. The slant material fixing rod 411 is inserted into the slant material fixing rod 411, Rest.

A pressure distribution plate 414 is installed at the boundary between the abdomen of the girder and the lower flange to support the inclined material fixing bolt rod 412 in the form of a hinge. The bolt portion of the inclined re-fixing bolt rod 412 is coupled to the nut portion of the inclined material fixing nut rod 411 and then the rotation pin 415 of the inclined material fixing nut rod 411 is rotated to adjust the entire length of the inclined material do. The protruding pin 423 protruding also under the vertical stiffener 310 is formed and one end of the vertical nut rod 421 having an inner groove formed therein is inserted and engaged so that the vertical nut rod 421 does not slip Place it so that the ball rotates. Then, the vertical bolt rod 422 hinged to a part of the inclined resilient bolt rod 412 is coupled with the vertical nut rod 421, and then the rotary pin 424 of the vertical nut rod 421 is rotated, Respectively.

The projecting fins 413 and 423 are formed on the upper part of a support plate formed of a steel plate, and an anchor is formed on the bottom surface of the support plate so as to be firmly fixed to a cantilever type ultra high strength concrete deck plate 300. The provision of the support platform 400 makes it possible to extend the cantilever-type ultra-high strength concrete deck plate 300 to a longer length, and at the time of installation and maintenance, the inclined material fixing nut rod 411 and the inclined material vertical bolt- (412) to adjust deflection and bending tensile stress.

6 is a perspective view of an ultra-high strength fiber-reinforced concrete deck plate placed on a bridge girder according to the present invention. As shown in FIG. 3, the inner girder 21 and the inner girder 21 When a large number of girders are installed at the upper part of the pier, the ultralight high strength fiber reinforced concrete deck plate 100 of the simple installation type shown in FIG. 3 (b) The concrete high deck concrete deck plate 300 of the cantilever type is installed on the bridge girder 22 and the inner girder 21, 6, when the installation of the ultra-high strength concrete deck plates 100 and 300 is completed, Since the cast iron roots to be installed in the concrete are installed through the through holes 312 formed in the vertical stiffeners 310, the ultra high strength concrete deck plate of the cantilever type and the slab concrete to be installed are more rigidly and integrally behaved Let's get it.

7A and 7B are a perspective view and a cross-sectional view, respectively, of a super high strength concrete deck plate 100, 200, 300 coupled to each other in the lateral direction, In order to prevent the leakage of the concrete flowing in the slab concrete when the slab concrete is installed, the 'A' type and the 'B' type combined with each other as shown in FIG. 7 (a) It is filled with epoxy or mortar between areas or gaps.

FIG. 7 (b) shows a gap in an inverted triangular shape formed on the lateral sides of super-high strength concrete deck plates 100, 200, and 300 coupled to each other. The gap is also filled with epoxy or mortar, And the effect of preventing the outflow of the ultrahigh strength concrete deck plates 100, 200 and 300 is further strengthened. Since the ultrahigh strength concrete deck plates 100, 200 and 300 are thin in the present invention, the gap can be sufficiently filled with a small amount of epoxy or mortar, and the super high strength concrete deck plates 100, 200, It has resistance to bending moment due to the influence of the bending tensile stress of the fiber. If necessary, a lattice type welded wire mesh is installed inside the ultra-high strength concrete deck plates 100, 200 and 300 to improve the bending tensile stress, . ≪ / RTI > In addition, when the super high strength concrete deck plates 100, 200 and 300 are manufactured, the hooking wire 301 is inserted at a point of time of about 30 minutes after the concrete is poured, thereby increasing the bonding force between the deck plate and the slab concrete.

Next, with respect to a construction method using the ultra-high strength fiber-reinforced concrete deck plates 100, 200 and 300 as described above,

(1) One end of a superstructure fiber reinforced concrete deck plate 100 of simple installation type is simply mounted on the upper part of the inner girder 21 on the inner girder 21 and the inner girder 21, The other end of the high-strength fiber-reinforced concrete deck plate 100 is simply mounted on the upper portion of the inner girder 21 immediately adjacent to the high-strength fiber-reinforced concrete deck plate 100. At this time, The shear key 23 on the upper part of the inner girder 21 is passed through. Reinforced concrete deck plate 200 is simply mounted on the upper part of the inner girder 21 when the bridge girder is wide and a plurality of inner girders 21 are installed, Reinforced concrete deck plate 200. The inner girder 21 passes through the shear key 23 located at the upper portion of the inner girder 21 and passes through the inner girder 21 between the anti- Reinforced concrete deck plate 200 having a superstructure fiber-reinforced concrete deck plate 100 and an on-shear-key hole 203 as shown in FIG. Can be used.

(2) A cantilever-type ultrahigh strength concrete deck plate 300 having a vertical stiffener 310 formed thereon is simply mounted on an upper portion of an inner girder 21 to form an upper portion of the upper portion of the inner girder 21 The shear keys 102 and 202 of the ultra-high strength fiber reinforced concrete deck plates 100 and 200 of the other type of simple installation type, which are passed through the shear keys 23 and are in contact with the anti- An ultra high strength concrete deck plate 300 of a cantilever type is disposed on the inner girder (not shown) so that the shear key 23 located above the outer girder 22 passes through the on- Reinforced concrete deck plates 100 and 200 in the same manner as the cantilever type ultrahigh strength concrete deck plate 30 0 is mounted on the upper part of the inner girder 21 and the outer girder 22. [ In addition, when the externally extended length of the ultrahigh strength concrete deck plate 300 of the cantilever type is too long to support the bending tensile stress as the vertical stiffener 310, the lower portion of the cantilever type ultra high strength concrete deck plate 300 A support base 400 is installed.

(3) The ultrahigh strength concrete deck plates 100, 200 and 300 are repeatedly installed in the longitudinal direction of the bridge according to the above (1) to (2) The sides are connected to each other by the 'a' type and the 'b' type, or form a gap of an inverted triangular shape, and the joints or gaps are filled with epoxy or mortar.

(4) When the super high strength concrete deck plates 100, 200 and 300 are installed according to (1) to (3), a cast iron root is placed on the super high strength concrete deck plates 100, 200 and 300, Through the through hole 312 of the vertical stiffener 310 and the slab concrete is laid on the super high strength concrete deck plates 100, 200 and 300 after the reinforcement is completed, thereby completing the bridge top plate.

Although the present invention has been described in connection with certain exemplary embodiments and drawings, it is to be understood that the phraseology and terminology used herein are for the purpose of description and should not be interpreted to limit the scope of the present invention. It must be interpreted in terms of meaning and concept. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only examples of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

11: Concrete panel 21: Inner girder
22: outer girder 23: shear key
30: Slab concrete 40: Pier
100, 200, 300: Ultra high strength concrete deck plate
101, 201, 301: hook wire 102, 202, 302: anti-
203, 303: on shear-key hole 310: vertical stiffener
311: the undone tendon 312: the circular hole
400: Support base 411: Slope fixing nut rod
412: Slope fixing bolt rod 421: Vertical nut rod
422: Vertical bolt rods

Claims (9)

An ultra-high-strength fiber-reinforced concrete deck plate is simply mounted on the inner girder and the inner girder of the bridge. An anti-shear-key hole is formed at both ends of the inner girder so that the shear- A hole through which the shear key on the upper portion of the girder is passed is formed by the anti-shear hole of the concrete deck plate, and the upper surface of the ultra-high strength fiber-reinforced concrete deck plate forms a hook wire to increase adhesion with the slab concrete , The transverse side surfaces of the ultra-high strength fiber-reinforced concrete deck plate that are connected to each other are combined with each other in the 'a' shape and the 'b' shape, or in the shape of an inverted triangle, and the joints or gaps are filled with epoxy or mortar ,
The super high strength fiber reinforced concrete deck plate according to claim 1, wherein the super high strength fiber reinforced concrete deck plate comprises 0.5 to 1.1 wt% of ordinary sand, 0.3 to 1.1 wt% of cement, 0.1 to 0.5 wt% of filler, 0.05 to 0.3 wt% of silica fume, The shrinkage reducing agent is 0.002 to 0.007 weight%, the swelling agent is 0.002 to 0.005 weight%, the shrinkage reducing agent is 0.05 to 0.15 weight%, the blast furnace slag is 0.1 to 0.3 weight%, the blend water is 0.2 to 0.4 weight%, the water reducing agent is 0.002 to 0.007 weight% % ≪ / RTI > fiber-reinforced concrete deck plate. An ultra-high-strength fiber-reinforced concrete deck plate is simply mounted on the inner girder and the inner girder of the bridge. An anti-shear-key hole is formed at both ends of the inner girder so that the shear- A hole through which the shear key on the upper part of the girder is formed by the anti-shear hole of the concrete deck plate, and the shear key of the inner girder is passed through the central part of the ultra high strength fiber reinforced concrete deck plate, Reinforced concrete deck plate is formed with a hook wire to increase the adhesive strength with the slab concrete which is installed on the upper portion of the super high strength fiber reinforced concrete deck plate, A 'and' b ' Or a gap of an inverted triangle shape is formed, and the joint portion or gap is filled with epoxy or mortar,
The super high strength fiber reinforced concrete deck plate according to claim 1, wherein the super high strength fiber reinforced concrete deck plate comprises 0.5 to 1.1 wt% of ordinary sand, 0.3 to 1.1 wt% of cement, 0.1 to 0.5 wt% of filler, 0.05 to 0.3 wt% of silica fume, The shrinkage reducing agent is 0.002 to 0.007 weight%, the swelling agent is 0.002 to 0.005 weight%, the shrinkage reducing agent is 0.05 to 0.15 weight%, the blast furnace slag is 0.1 to 0.3 weight%, the blend water is 0.2 to 0.4 weight%, the water reducing agent is 0.002 to 0.007 weight% % ≪ / RTI > fiber-reinforced concrete deck plate. In the cantilever-type ultrahigh-strength concrete deck plate which is simply mounted on the inner girder and the outer girder of the bridge, the length of both ends of the vertical stiffener installed on the upper side of the outer girder is larger than the size of the parentage A reinforced cord or a tensioned tensile tent is disposed on the upper side of the vertical stiffener so as to correspond to the bending tensile force, and one end of the cantilever type ultra high strength concrete deck plate, which is simply mounted on the upper side of the inner girder, And a hole through which the shear key of the upper portion of the girder passes can be formed by the anti-shear-key hole of another ultra-high strength fiber-reinforced concrete deck plate which is butted against the adjacent ultra high strength fiber reinforced concrete deck plate. High Strength Fiber Reinforced Cone The upper deck of the cantilever-type ultra-high strength concrete deck plate is formed with a hook wire to increase adhesion with the slab concrete which is installed on the upper deck, The transverse side surfaces of the cantilever-type ultra-high strength concrete deck plate are connected to each other in the 'a' type and the 'b' type, or in the shape of an inverted triangle, and the joints or gaps are filled with epoxy or mortar,
The cantilever type ultrahigh strength fiber reinforced concrete deck plate is characterized in that it comprises 0.5-1.1% by weight of ordinary sand, 0.3-1.1% by weight of cement, 0.1-0.5% by weight of filler, 0.05-0.3% by weight of silica fume, 0.05 to 0.20% by weight of kaolin, 0.05 to 0.15% by weight of LCD waste glass, 0.1 to 0.3% by weight of blast furnace slag, 0.2 to 0.4% by weight of compounding agent, 0.002 to 0.007% by weight of water reducing agent, 0.002 to 0.007% by weight of shrinkage reducing agent, To 0.005% by weight based on the total weight of the ultrahigh strength fiber reinforced concrete deck plate. The method of claim 3,
Reinforced concrete deck plate characterized in that a vertical stiffener provided on an ultra-high strength concrete deck plate of a cantilever type has a through hole through which a cast iron muscle can pass. The method of claim 3,
Wherein a support base is provided at a lower portion of a cantilever-type ultra-high strength concrete deck plate, wherein the support base is composed of a slant member to which a fixing bolt rod and a slant fixing nut rod are screwed, and a vertical member in which a vertical bolt rod and a vertical nut rod are screwed together. Fiber reinforced concrete deck plate. 4. The method according to any one of claims 1 to 3,
An ultra-high strength fiber-reinforced concrete deck plate characterized in that a grid-type welded wire mesh is installed inside an ultra-high strength concrete deck plate to increase flexural tensile strength. delete The present invention relates to a cement composition comprising 0.5 to 1.1% by weight of ordinary sand, 0.3 to 1.1% by weight of cement, 0.1 to 0.5% by weight of filler, 0.05 to 0.3% by weight of silica fume, 0.05 to 0.20% by weight of meta kaolin, Reinforced concrete formed of 0.15% by weight of blast furnace slag, 0.1-0.3% by weight of blast furnace slag, 0.2-0.4% by weight of blending agent, 0.002-0.007% by weight of water reducing agent, 0.002-0.007% by weight of shrinkage reducing agent and 0.002-0.005% by weight of swelling agent The construction method using the deck plate,
(1) One end of an ultra-high-strength fiber-reinforced concrete deck plate is simply mounted on the upper part of the inner girder and the other end of the ultra-high-strength fiber-reinforced concrete deck plate is mounted on the upper part of the inner girder immediately adjacent to the inner girder and the inner girder. Passing a shear key over the inner girder between the two semi-shear-bored holes of the ultra-high strength fiber-reinforced concrete deck plate.
(2) A cantilever-type ultra-high-strength concrete deck plate on which a vertical stiffener is formed is simply mounted on the upper part of the inner girder by passing the shear key on the upper part of the inner girder through the anti- A concrete high deck concrete deck plate of a cantilever type is attached to the inner girder and the inner girder so that the shear key located on the upper part of the girder is formed by the anti-shear hole of the reinforced concrete deck plate, A step of mounting an ultra high strength concrete deck plate of the cantilever type on the upper side of the inner girder and the outer girder on the opposite side of the super high strength fiber reinforced concrete deck plate mounted on the outer girder and mounting the cantilever type.
(3) Repeatedly installing the ultrahigh strength concrete deck plate according to the above (1) to (2) in the longitudinal direction of the bridge,
(4) When the super high strength concrete deck plate installation is completed according to (1) to (3), a reinforcing bar is placed on the upper portion of the ultra high strength concrete deck plate, and a part of the casting steels passes through the through hole of the vertical reinforcing member. Reinforced concrete deck plate is completed by laying a slab concrete on top of a post-ultra-high-strength concrete deck plate. The method of claim 8,
The support base is provided at the lower part of the cantilever-type ultra-high strength concrete deck plate. The support base is composed of a slant member to which the fixing bolt and the slant fixing nut rod are screwed, and a vertical member to which the vertical bolt and the vertical nut are screwed. Construction method using reinforced concrete deck plate

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