KR101069394B1 - Deckpanel - Google Patents

Abstract

Deck panel of the present invention and the corrugated deck plate; In the deck panel including a truss girder provided in the bone in the longitudinal direction of the corrugated deck plate, the corrugated deck plate is formed in the inverted rhombus ribs, ribs are formed in the longitudinal direction on both sides in the longitudinal direction of the mountain, At one end of the corrugated part, a hook piece that extends over the beam (beam) is formed in the protruding part, and the other end of the corrugated part is provided with a finishing plate having the same shape as the corrugated part, and one side of the finishing plate is fixed to the other end of the corrugated part. On the other side of the mountain, the engaging piece is formed to project the beam (beam), the truss girder and the lower reinforcement; Each of the lower reinforcing bar is combined with their bones to form a V-shape, and each of the hills are bent downwards outward to form a leg having a foot at the bottom, and having a V-shape having legs on both sides. Pair of corrugated lattice bars; Upper reinforcing bars are fixed to the upper sides of the V-shape to form an inverted triangle with the lower reinforcement; And one end is fixed to the upper reinforcement, the other end is composed of a shear connecting material over the beam (beam) so that the V-shaped portion of the corrugated lattice reinforcement is installed in the bone of the corrugated deck plate, the foot of the leg is corrugated deck plate It is characterized in that it is fixed to the rib of the mountain.

Deck Panel, Deck Plate, Truss Girder, Corrugated Board, Shear Connector, Lattice Rebar

Description

Deck Panels {Deckpanel}

The present invention relates to a deck panel, and more particularly, to a deck panel provided by changing the structure of the truss girder in the bone portion of the corrugated deck plate.

The deck panel slab method is widely used in the construction of floors and ceiling concrete slabs of large buildings. Looking at the overall construction of these deck panels, the deck panels are designed to withstand the concrete's own weight and construction load. It consists of a deck plate (deck steel plate) serving as a formwork of a predetermined thickness and a plurality of truss girder (fixed steel plate) fixed to the upper surface of the deck plate in the longitudinal direction to maintain the strength of the concrete slab, Truss girder is mainly used triangular truss girder. Deck panels that play such a role are used by combining a plurality of deck panels according to the area of the building.

Deck plate acts mainly as formwork during construction, and after construction, it becomes the surface of concrete slab structure.The surface is plated with zinc to prevent corrosion caused by contact with concrete, and the foot of corrugated lattice rebar Ribs, which are placed welding ribs, are formed at regular intervals in the width direction, and female and joint portions are formed at both ends of the width direction in order to continuously arrange a plurality of deck plates by the required area of the building. Are formed respectively. Such deck plates are of flat plate type or corrugate plate type.

The truss girder is a pair of corrugated lattice bars that are continuously bent along the deck plate in a constant wave form along the longitudinal direction of the deck plate, and the upper reinforcing bar welds the top of the pair of corrugated lattice bars. And the lower reinforcing bars respectively installed under the pair of corrugated lattice reinforcing bars, wherein the upper and lower reinforcing bars form a triangle, and are installed in the longitudinal direction of the deck plate, respectively, wherein the upper and lower reinforcing bars are reinforced with corrugated lattice reinforcing bars. As the reinforcing bars, the main slab of the concrete slab is used to maintain the overall strength of the concrete slab, and a foot is formed at the bottom of the corrugated lattice reinforcing bar to be horizontally bent and spot welded to the rib of the deck plate.

Thus, both ends of the horizontal bar are welded to the lower rebars of the truss girder, which is installed on the top of the deck panel to form a triangle, and the upper ends of the vertical bars are welded to the upper reinforcement, so that the horizontal bar and the vertical bar crosswise, and the intersection of the horizontal and vertical bars is welded. Horizontal and vertical rods are fixedly connected.

The deck panel having the structure as described above is transported to the construction site by a vehicle, and a plurality of deck panels are coupled to each other by the connecting portion of the deck plate according to the area of the building, and both ends are mounted on the beam (beam) and the beam (beam) facing each other. The lower end is fixed to the upper surface of the beam (beam) by welding.

After the concrete is placed on the upper surface of the deck panel installed in this way, the concrete slab that forms the floor and ceiling of the building is constructed after a certain period of curing. The vertical rod is to prevent the deck plate is pushed out of the beam (beam) by the pouring pressure during concrete pouring.

The truss girder of such a shape is installed in the case of a corrugated deck plate, the foot of the corrugated lattice reinforcement is mounted on the bottom of the bone.

The components of the deck panel and the installation structure of the above-mentioned components are registered in Korean Patent No. 0180079 (Decks Girder of Reinforced Concrete Slab), Korean Utility Model 20-0146601 (beam coupling structure of Deck Panel), and Korean Registered Patent 10-729860 (Triangle Truss Type Deck Panel End Structure).

And in the steel structure, in the case of I-beams (beams), as described in the Republic of Korea Utility Model No. 20-0146601, the beam (beams) between the deck panel and the deck panel vertically welded to the I-beams (beam) ), One row (beam center) or two rows (beams) acting as shear connectors so that the concrete placed in the beams is fixed so that the beams and the concrete slab behave integrally. Stud bolts (both sides of the beam) or stud bars connecting deck panels are provided.

In addition, in the case of TSC (T-type Steel Composite beam) composite beam, instantaneous electric welding by a stud gun as a shear connector on both upper flanges of TSC composite beam, as disclosed in Korean Patent Registration No. 10-0592398 (bottle top flange TSC beam) The stud is installed.

The structure of the conventional deck panel as described above has the following problems.

First, the resistance to the load of concrete poured during construction is determined by the upper reinforcement of the truss girder under compression. Looking at the structure of the truss girder, one of the upper reinforcement under compression is low in strength due to its low cross-sectional area. There are two bottom reinforcing bars, which have a large cross-sectional area, and the arrangement structure of the high-strength upper and lower reinforcing bars is unreasonable, which lowers the resistance to concrete loads.

Second, since the stress moment acting on both ends of the deck panel of the hardened concrete slab after construction is greater than the stress moment acting on the center of the deck panel, the upper rebar is placed more than the lower rebar or the upper rebar is The thicker than the lower reinforcing bar should be used, but the upper and lower reinforcing bars are used with the same thickness, so the durability of the building is lowered and the resistance to earthquake loads is reduced.

Third, the flat or corrugated deck panel is installed on the upper surface of the beam, and the truss girder is a structure for maintaining the overall strength of the concrete slab as the main root of the concrete slab. As concrete should be cast to have a sufficient coating thickness, the thickness of the concrete slab becomes thicker, which limits the height of the concrete slab at a limited building height.

Fourth, stud bolts installed on the upper flange of I-beams used as shear connectors and studs installed on the upper flanges of TSC composite beams result in increased labor and cost increase, and the stud bar is connected to the truss girder physically and continuously. As a result, the resistance to shear force will be improved rather than stud bolts, but it will result in more labor and cost increase than using stud bolts. Therefore, stud bolts are used in place of stud bars.

Fifth, the vertical fixing between the welded to the upper flange of the I-beam, as disclosed in the Republic of Korea Utility Model 20-0146601 (beam coupling structure of the deck panel) and Republic of Korea Patent 10-729860 (end structure of the triangular truss-type deck panel), Vertical rods and horizontal rods cause labor and cost increases.

An object of the present invention is to solve the above problems, by changing the structure of the corrugated deck plate and the truss girders installed in the bone portion thereof to increase the resistance to concrete and earthquake load to improve the durability of the building, By reducing the thickness (layer height) of the concrete slab, it is possible to reduce the amount of frame and finishing materials, various equipment and energy consumption, and to provide a deck panel that can achieve a reduction in labor and cost.

The object of the present invention described above is a corrugated deck plate; In the deck panel including a truss girder provided in the bone in the longitudinal direction of the corrugated deck plate, the corrugated deck plate is formed in the inverted rhombus ribs, ribs are formed in the longitudinal direction on both sides in the longitudinal direction of the mountain, At one end of the corrugated part, a hook piece that extends over the beam (beam) is formed in the protruding part, and at the other end of the corrugated part, a finishing plate having the same shape as that of the corrugated part is installed. On the other side of the mountain, the engaging piece is formed to project the beam (beam), the truss girder and the lower reinforcement; Each of the lower reinforcing bar is combined with their bones to form a V-shape, and each of the hills are bent downwards outward to form a leg having a foot at the bottom, and having a V-shape having legs on both sides. Pair of corrugated lattice bars; Upper reinforcing bars are fixed to the upper sides of the V-shape to form an inverted triangle with the lower reinforcement; And one end is fixed to the upper reinforcement, the other end is composed of a shear connecting material over the beam (beam) so that the V-shaped portion of the corrugated lattice reinforcement is installed in the bone of the corrugated deck plate, the foot of the leg is corrugated deck plate It is achieved by the deck panel of the first embodiment, characterized in that it is fixed to the rib of the peak of the.

In addition, the above object of the present invention is a corrugated deck plate; In the deck panel including a truss girder provided in the bone in the longitudinal direction of the corrugated deck plate, the corrugated deck plate is formed in the inverted rhombus ribs, ribs are formed in the longitudinal direction on both sides in the longitudinal direction of the mountain, One end and the other end of the open mountain surface is provided with a closing plate for blocking the open mountain surface is formed, the truss girders and the lower reinforcement; Each of the lower reinforcing bar is combined with their bones to form a V-shape, and each of the hills are bent downwards outward to form a leg having a foot at the bottom, and having a V-shape having legs on both sides. Pair of corrugated lattice bars; Upper reinforcing bars are fixed to the upper sides of the V-shape to form an inverted triangle with the lower reinforcement; And one end is fixed to the upper reinforcement, the other end is composed of a shear connecting material over the beam (beam) so that the V-shaped portion of the corrugated lattice reinforcement is installed in the bone of the corrugated deck plate, the foot of the leg is corrugated deck plate It is achieved by the deck panel of the second embodiment, characterized in that it is fixed to the rib of the peak of the.

In the deck panel of the first embodiment of the present invention, the shear connecting member is folded in half, the other end of the support to form a closed by fixing a pair of one end to form an opening to each of the upper reinforcement to form a closed portion between the lower and upper reinforcing bar It is characterized in that it is disposed in the projecting.

In the deck panel of the first embodiment of the present invention, the beam (beam) is characterized in that the TSC composite beam.

In the deck panel according to the second embodiment of the present invention, the shear connector is formed by folding the reinforcing bar in half and fixing the pair of one ends to each of the upper bars to form the closing part, and the other end supporting part is formed below the ends of the lower bars. It is characterized in that the protrusion is installed.

In the deck panel of the second embodiment of the present invention, the beam (beam) is characterized by being an I-beam.

In the deck panel according to the first or second embodiment of the present invention, a plurality of diagonal embossings are formed on both sidewalls of the inverted ribs of the corrugated deck plate.

In the deck panel of the first or second embodiment of the present invention, the trough girder further includes a load support on which the V-shaped bone portion is supported, wherein the load support is provided between a seating groove in which a lower reinforcing bar is installed, and the seating groove. It characterized in that the insertion hole is formed in the bone portion of the corrugated lattice reinforcement is formed.

By the technical configuration of the deck panel of the present invention described above, the resistance to concrete and earthquake loads is increased, thereby improving durability of the building, and also reducing the thickness (straight height) of the concrete slab, thereby reducing the amount of framing and finishing materials, and various facilities. And energy consumption can be reduced, labor and cost can be reduced.

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

The deck panel of the present invention is divided into the deck panel of the first embodiment installed in the TSC composite beam 30 as shown in FIG. 1 and the deck panel of the second embodiment installed in the I-shaped steel beam 90 as shown in FIG. This is because the structure of the corrugated deck plate and the truss girder constituting the deck panel is slightly different depending on where the deck panel is installed among the TSC composite beam 30 and the I-shaped steel beam 90 having the space.

The deck panel of the first and second embodiments of the present invention includes a corrugated deck plate (10, 60); And truss girders 20 and 80 provided in the longitudinal valleys of the corrugated deck plate.

First Embodiment

Referring to the drawings of the first embodiment of the present invention, Figure 1 is a perspective view showing a deck panel including a finishing plate of the first embodiment of the present invention, Figure 2 is installed on the TSC composite beam deck panel of the first embodiment of the present invention 3 is an enlarged view of portion A of FIG. 2, FIG. 4 is an enlarged view of portion B of FIG. 2, FIG. 5 is a plan view of FIG. 2, FIG. 6 is a front view of FIG. 1, and FIG. 7 is a view of FIG. 2 is a side view, Figure 8 is a perspective view of the truss girder of Figure 1, Figure 9 is a perspective view of the deck plate of Figure 1, Figure 10 is a perspective view of the load support supporting the truss girder of the present invention.

In the corrugated deck plate 10 according to the first embodiment of the present invention, as shown in FIG. 9, the valleys 11 are formed in an inverted rhombus shape, and ribs 121 are formed on both sides of the peaks 12 in the longitudinal direction. It is formed in the end, the end of the corrugated portion of the end portion of the corrugated portion is formed in the end portion of the corrugated portion protrudes formed on the top portion 12, the engaging piece 13 that spans the upper flange 31 of the TSC composite beam 30 The plate 40 is installed, but one end of the closing plate 40 is fixed to the other end of the corrugated plate portion, and the other end portion 41, the engaging piece 411 that hangs over the upper flange 31 of the TSC composite beam 30 ) Is formed to protrude. Here, the closing plate 40 is fixed to the other end of the corrugated plate by tightening the bolts to match the bolt hole 42 and the long hole 15 formed in the peak 12 of the corrugated portion of the other end.

In addition, a plurality of diagonal embossings 14 are formed on both sidewalls of the inverted ribs 11. The plurality of diagonal embossings in FIG. 9 may be in the form of a fin but may be in the form of a slash (//////) or a backslash. By this embossing, even if the thickness of the corrugated deck plate is thin, the bearing capacity is exerted without local buckling.

By forming the valleys 11 in an inverted diamond model, it is possible to minimize the amount of concrete poured into the valleys than the conventional rectangular valleys. It is possible to form the valley part in an inverted rhombus shape, which is deeply related to the structure of the truss girder 20 installed in the valley part 11 to be described below, while using the conventional triangular truss girder installed in the valley part as it is. Changing from Rectangle to Inverted Rhombus maximizes the amount of concrete, not minimizes it.

The truss girder 20 of the first embodiment of the present invention includes a lower reinforcing bar 21 as shown in FIG. 8; Each bone 221 is coupled to both sides of the lower reinforcing bar 21 is formed in a V-shape, each mountain 222 is bent obliquely downward to the outside (foot) having a foot (2231) at the bottom ( A pair of corrugated lattice reinforcing bars 22 formed of a V-shape having 223 formed on both sides thereof; Upper reinforcing bars 23 fixed to both upper ends of the V-shape to form an inverted triangle with the lower reinforcing bars 21; And one end is fixed to the upper reinforcing bar 23, and the other end is composed of a shear connecting member 24 that spans the upper flange 31 of the TSC composite beam (30).

Shear connector 24 can be manufactured with a conventional reinforcing bar, folded in a straight bar in half to form a pair of ends to form an opening opening up the rod 241, the other end of the ring-shaped to form a closure It is produced by the support 242.

The pair of upward rods 241 of the shear connector 24 formed as described above is fixed to each of the upper rebars 23 so that the support part 242 is provided with the lower rebars 21 and the upper rebars 23 as shown in FIG. 6. In the middle of the) and as shown in Figures 5, 6 protruding out of the valleys (11) to cover the upper flange 31 of the TSC composite beam (30).

Thus, the studs that act as shear connectors on the upper flange 31 of the TSC composite beams 30 when the TSC composite beams are manufactured or constructed as in the prior art by the shear connector 24 of the present invention integrally formed on the truss girder 20 ( There is no need to install bolts separately.

As described above, the truss girder of the present invention has a high cross-sectional area as two upper rebars are compressed, unlike the conventional truss structure, and has a high cross-sectional area. Because of the arrangement of reinforcing bars and lower reinforcing bars, the resistance to the load of concrete being poured during construction is improved.

In addition, there are two upper rebars and one lower rebar, and the upper side has more arrangements of rebar than the lower side, so the stress moment acting on the center part of the deck panel of the hardened concrete slab after completion of concrete construction is at both ends of the deck panel. The greater the moment of stress on the structure, the greater the durability of the building, which improves its resistance to earthquake loads.

According to the effect of the structure of the truss girder described above, there is no need for the vertical fixing rod, the vertical rod, and the horizontal rod welded to the upper flange of the I-shaped steel beam as in the prior art, thereby reducing labor and cost.

The truss girder 20 configured as described above has a V-shaped portion of the corrugated lattice rebar 22 as shown in FIGS. 1,2, 5, 6, and 7 at the valley 11 of the corrugated deck plate 10. The foot 2223 of the leg 223 is fixed to the rib 121 of the peak 12 of the corrugated deck plate 10.

On the other hand, the truss girder 20 is installed in the valley portion 11 of the corrugated deck plate 10 as described above is the concrete that acts on the truss girder 20 during construction of the floor and ceiling concrete slab needing temporary construction In order to transmit the load to the temporary column, the V-shaped bone portion 221 of the truss girder 20 is provided with a load support 50, the load support 50 is the bone portion 11 of the corrugated deck plate 10 Is installed at the bottom of the.

5 and 10, the load support 50 has a seating groove 51 in which the lower reinforcing bars 21 are installed, and a valley 221 of the corrugated lattice rebar 22 is inserted between the seating recesses. The insertion hole 52 is formed and comprised.

The deck panel of FIG. 1 configured as described above is installed at both ends of the upper flange 31 of the TSC composite beam 30 on one side and the other side as shown in FIG. 2. Specifically, referring to FIG. 3 and FIG. , The support piece 242 of the front end connecting member 24 of the truss girder 20 and the engaging piece 13 of the peak 12 formed on one end of the corrugated portion over the upper flange 31 of the TSC composite beam 30 To the side of the TSC composite beam 30 by pushing it to one side, and the shear connector 24 of the top portion 12 formed on the corrugated plate portion of the other end is installed over the upper flange 31 of the other TSC composite beam 30 12 is positioned horizontally with the upper flange 31 of the TSC composite beam 30, the valley portion 11 is positioned below the upper flange 31 of the TSC composite beam 30, the other end of the corrugated portion and The space between the TSC composite beams 30 is generated.

As the bone portion 11 is positioned below the upper flange 31 of the TSC composite beam 30, that is, when the valley portion is disposed on the side surface of the TSC composite beam 30, the thickness of the concrete slab as much as the bone portion (layer height) ) Can be disposed on the side of the TSC composite beam 30 can reduce the height of the building by that amount.

Finishing plate 40 is installed in the separation space, after placing the closing plate in the separation space and pushing the closing plate toward the other side TSC composite beam 30, the long hole 15 formed in the mountain portion 12 of the other end of the corrugated plate And the bolt hole 42 formed in the peak portion of the finish plate 40 is matched, so the bolt is inserted into the matched long hole and the bolt hole and tightened, the end plate is coupled and fixed to the other end of the corrugated plate is installed. When installed in this way, the engaging piece 411 of the peak portion 41 of the finishing plate is completely covered with the separation space while covering the upper flange 31 of the other TSC composite beam 30. Therefore, it is possible to prevent the cement paste from leaking down during concrete pouring on the deck panel.

The hole formed in the ridge 12 of the other end of the corrugated part is formed by the long hole 15, so that the size of the separation space cannot be constant, so the bolt hole 42 of the finishing plate pushed toward the other TSC composite beam 30 is long. It is a structure for acquiring (15).

Second Embodiment

Referring to the drawings of the second embodiment of the present invention, Figure 11 is a perspective view of the deck panel of the second embodiment of the present invention installed in the I-beam, Figure 12 is a perspective view showing a truss girder of the second embodiment of the present invention FIG. 13 is a front view of FIG. 1, FIG. 14 is a side view of FIG. 1, and FIG. 15 is a perspective view showing a closing plate of a second embodiment of the present invention.

In the corrugated deck plate 60 of the second embodiment of the present invention, as shown in FIGS. 11, 13, and 15, the valley portion 61 is formed in an inverted rhombus shape, and ribs 63 are formed on both sides of the peak portion 62 in the longitudinal direction. ) Is formed in the longitudinal direction, and the open end face at one end and the other end is provided with a closing plate 70 for blocking the open end face.

On both sidewalls of the inversely-shaped valley 61, a plurality of diagonal embossing 64 having the same function as the first embodiment is formed. In addition, by forming the valley portion 61 in an inverted rhombus shape, the amount of concrete poured into the valley portion may be minimized as compared with the conventional rectangular valley portion as in the first embodiment.

The truss girder 80 of the second embodiment of the present invention includes a lower reinforcing bar 81 as shown in FIG. The bones 821 are coupled to both sides of the lower reinforcing bar 81 to form a V-shape, and each of the hills 822 is bent obliquely downward to the bottom and has a foot 8231 at the bottom ( 823, a pair of corrugated lattice reinforcing bars 82 having a V shape having legs 823 on both sides thereof; Upper reinforcing bars 83 fixed to both upper ends of the V-shape, that is, the hill 822 to form an inverted triangle with the lower reinforcing bars 81; And one end is fixed to the upper reinforcing bar (83), the other end is composed of a shear connecting member (1000) that spans the upper flange (91) of the I-beams (90).

Shear connector 1000 can be manufactured in the same manner as in the first embodiment, it is possible to fold a pair of straight bars to form an opening by folding the reinforcing bar in half to form an upward rod 1100, the other end is It is made of a ring-shaped support portion 1200 to form a closed portion.

The pair of upward rods 1100 of the shear connector 1000 formed as described above are fixed to each of the upper reinforcing bars 83, and the support unit 1200 is disposed below the end of the lower reinforcing bars 81 as shown in FIGS. 12 and 13. As shown in FIG. 14, the protrusion 61 is protruded outward so as to span the upper flange 31 of the I-beam 30. The bottom surface of the shear connector is located on the same line as the bottom surface of the valley portion 61 of the corrugated deck plate 60, as shown in FIGS. This shear connecting material 1000 does not require a process for separately installing a stud (bolt) like the first embodiment.

In the truss girder 80 described above, as in the first embodiment, the V-shaped portion of the corrugated lattice reinforcement 82 is installed in the valley portion 61 of the corrugated deck plate 60, and the foot 8231 of the leg 823 is provided. Is fixed to the ribs 63 of the peak portion 62 of the corrugated deck plate 60 to improve the resistance to the load of the concrete poured during concrete construction as described in the first embodiment, and the durability of the building This increases the resistance to earthquake loads. Accordingly, as described in the first embodiment, the vertical fixing bar, the vertical bar, and the horizontal bar, which are welded to the upper flange of the conventional I-beam, do not need to be eliminated, thereby reducing labor and cost.

In addition, the same load support 2000 as in the first embodiment is used to transfer the load of concrete acting on the truss girder 20 during construction of the floor and ceiling concrete slabs requiring the temporary support to the temporary support. .

As described above, the deck panel consisting of the corrugated deck plate 60 and the truss girder 80 is different from the first embodiment, as shown in FIGS. 11, 13, and 14, and an upper flange of the I-shaped steel beam 90 on one side and the other side. It is only necessary to install the two ends at 91. In other words, the support plate 1200 of both ends and the shear connector 1000 is provided over the upper flange 91 of the I-shaped steel beam 90 on one side and the other side is installed.

1 is a perspective view showing a deck panel including a finishing plate of the first embodiment of the present invention.

Figure 2 is a perspective view of the deck panel of the first embodiment of the present invention installed on a TSC composite beam.

3 is an enlarged view of a portion A of FIG. 2;

4 is an enlarged view of a portion B of FIG. 2;

5 is a plan view of FIG.

6 is a front view of FIG. 1;

7 is a side view of FIG. 2;

8 is a perspective view of the truss girder of FIG.

9 is a perspective view of the deck plate of FIG.

10 is a perspective view of a load support for supporting the truss girder of the present invention.

11 is a perspective view of the deck panel of the second embodiment of the present invention installed on an I-beam.

12 is a perspective view and a plan view of the truss girder of the second embodiment of the present invention;

13 is a front view of FIG. 1;

14 is a side view of FIG. 1;

Fig. 15 is a perspective view showing a closing plate of the deck plate of the second embodiment of the present invention.

DESCRIPTION OF REFERENCE NUMERALS

10,60: corrugated deck plate 11,61: valley

12,62: mountain 13,411: hook

14,64: Embossing 15: Longines

20,80: Truss girder 21,81: Lower rebar

22,82: corrugated lattice rebar 221,821: bone

222,822: obstetrics 223,823: legs

2231,8231: Foot 23,83: Reinforcing bar

24,1000: Shear connector 241,1100: Upward rod

242,1200: support portion 30: TSC composite beam

40,70: finishing plate 42: bolt hole

50,2000: Load support 51: Seating groove

52: insertion hole 90: I-beam

Claims (8)

Corrugated deck plates; In the deck panel containing a truss girder provided in the valley in the longitudinal direction of the corrugated deck plate, In the corrugated deck plate, the valley part is formed in an inverted rhombus shape, ribs are formed in the longitudinal direction at both sides of the peak portion, and the end portion of the corrugated portion has a latching piece that extends over the beam and protrudes from the peak portion. The plate portion is provided with a finishing plate of the same shape as the corrugated portion, one side of the closing plate is fixed and coupled to the other end of the corrugated plate, the other side of the mountain is protruding to form a locking piece that spans the beam (beam), The truss girder is provided with a lower reinforcing bar; Each of the lower reinforcing bar is combined with their bones to form a V-shape, and each of the hills are bent downwards outward to form a leg having a foot at the bottom, and having a V-shape having legs on both sides. Pair of corrugated lattice bars; Upper reinforcing bars are fixed to the upper sides of the V-shape to form an inverted triangle with the lower reinforcement; And one end is fixed to the upper reinforcement, the other end is composed of a shear connecting material that spans the beam (beam) The V-shaped portion of the corrugated lattice reinforcing bar is installed in the bone portion of the corrugated deck plate, the foot of the leg is fixed to the rib of the peak of the corrugated deck plate deck panel. Corrugated deck plates; In the deck panel including a truss girder installed in the bone in the longitudinal direction of the corrugated deck plate, The corrugated deck plate is formed by the inverted rhombus shape of the bone portion, ribs are formed in the longitudinal direction on both sides of the peak portion, and a finishing plate is formed on the open portion of the one end and the other end to block the open portion of the peak. Become, The truss girder is provided with a lower reinforcing bar; Each of the lower reinforcing bar is combined with their bones to form a V-shape, and each of the hills are bent downwards outward to form a leg having a foot at the bottom, and having a V-shape having legs on both sides. Pair of corrugated lattice bars; Upper reinforcing bars are fixed to the upper sides of the V-shape to form an inverted triangle with the lower reinforcement; And one end is fixed to the upper reinforcement, the other end is composed of a shear connecting material that spans the beam (beam) The V-shaped portion of the corrugated lattice reinforcing bar is installed in the bone portion of the corrugated deck plate, the foot of the leg is fixed to the rib of the peak of the corrugated deck plate deck panel. The method according to claim 1, Shear connector is a deck panel, characterized in that the other end of the reinforcing bar is installed in the middle of the lower reinforcing bar and the upper reinforcing bar is fixed by installing a pair of one end to form an opening to each of the upper reinforcing bar to form an opening. The method according to claim 1 or 3, Beam (beam) is a deck panel, characterized in that the TSC composite beam. The method according to claim 2, Shear connector is a deck panel, characterized in that the other end of the reinforcing bar is fixed to each of the upper reinforcing bar to form an opening by folding the reinforcing bar in half to be disposed below the end of the lower reinforcement. The method according to claim 2 or 5, Beam (beam) is a deck panel, characterized in that the I-beam. The method according to claim 1 or 2, A deck panel comprising a plurality of diagonal embossings formed on both sidewalls of an inverted rib of a corrugated deck plate. The method according to claim 1 or 2, The deck further comprises a load support on which the V-shaped bone of the truss girder is supported, wherein the load support is provided with a seating groove into which the lower reinforcing bar is installed, and an insertion hole into which the bone of the corrugated lattice reinforcement is inserted between the seating grooves. panel.

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