KR20130013050A - Deck plate system using cap plate - Google Patents

Abstract

PURPOSE: An end part continuity deck plate system utilizing a cap plate is provided to improve structure stability and workability by preventing deformation of a deck plate by construction load. CONSTITUTION: An end part continuity deck plate system utilizing a cap plate comprises a deck plate, a connecting bar(30), and a lower connecting plate(33). The deck plate is put on the both sides in the width direction and is supported by a girder. The connecting bar continues by connecting the cap plate for negative moment reinforcement of the neighboring deck plate. The lower connection plate continues by connecting the bottom of an opened rib(121) of a deck plate.

Description

End plate sequencing deck plate system using cap plate

The present invention reduces the constant moment by continually using the cap plate to reduce the static moment, thus eliminating the need for installation of copper bars during construction, and constructing a highly efficient cross section after synthesis, and effectively resisting the spreading and lateral distortion of the deck plate during construction. An end continuous deck plate system utilizing a cap plate is provided.

Steel structures and steel-reinforced concrete structures with excellent durability and earthquake resistance are mainly adopted as the structural form of high-rise buildings. In such high-rise buildings, deck plates are generally used for floor slab systems because of shortening of air and reduction of labor costs. to be.

The deck plate is largely divided into a mold and a structural. Formwork decks bear the weight of the sludge in the sludge state before the concrete hardening and the working load at the time of construction, and the floor load after the concrete hardening is supported by the reinforced concrete bottom. The structural deck behaves in unison with the reinforced concrete after the concrete hardening and supports the working load and functions the same as the tensile steel. Structural decks have the effect of adding reinforcing bars to resist bending moments, thus reducing the amount of rebar and concrete thickness.

For structural use, there are reinforced truss deck plates and composite deck plates. The reinforced truss deck plate is a unitary structure of a deck plate (flat deck plate) of a flat type and a structural member made of a truss part and a deck plate To reduce the overall thickness of the overall bottom plate by reducing the thickness of the bottom plate and eliminating the composite bone form. Various types have been developed depending on the shape of the reinforcing truss.

As a background technology of the present invention, there is a patent registration 10-1028372 (Patent Document 1).

In the background art, as shown in Figure 6, in the connection structure of the base plate made of metal plate and the deck plate made of iron truss girder fixed on the base plate, the base plate forms the cross beam of the building structure the upper end of the cross beam formwork Arranged to span both sides; The lower reinforcing bar network is fixedly coupled to the lower reinforcing bar members of both deck plates using wire or the like while the lower reinforcing bar network is sandwiched between the lower reinforcing bars of the both deck plates; And the upper reinforcing bar network is fixedly coupled to the upper reinforcing bar members of both deck plates by using wires or the like while the upper reinforcing bar network is sandwiched between the upper reinforcing bar members of the both deck plates. Since the truss synthetic deck plate can be connected in this way, a plurality of upper reinforcing members and lower reinforcing members can be connected at the same time, thereby reducing the number of work operations and thus achieving a convenient operation. .

However, in the background art, the composite deck plate is integrally formed with the slab concrete to support the load, and the open bottom has a continuous cross-sectional shape, and embossing or grooving is formed on the surface to enhance the synthesis effect. These deck plates are not only structurally inefficient because the ends are simply supported on the beam, that is, the ends are not continuous, and when used for long distances of 5m or more, they need to be supported by the clubs during construction due to excessive static moment. There was a risk of lateral torsion or lateral torsion caused by side pressure or lateral force during work.

Patent Registration 10-1028372

The present invention utilizes a cap plate that can be extended over long periods of time and can cope with high loads without having to support the copper bars during construction because the end portion is continuous and can prevent deformation of the deck plate due to the construction load. One deck plate system is to provide.

According to a preferred embodiment of the present invention, a deck plate body having a constant width in cross-sectional shape having a plurality of open ribs parallel to each other separated by a flat portion; It consists of a cover portion for closing the open ribs at both ends in the longitudinal direction of the deck plate body and a coupling portion extending horizontally to both ends of the cover portion to be seated and coupled to a flat portion, the parent formed with a connecting bar coupling groove Cap plate for cement reinforcement; A truss-type reinforcing bar configured to connect a flat portion of the deck plate body in the width direction; End continuous deck plate system using a cap plate comprising a; connecting bar which is seated and coupled to the connecting bar coupling groove to continue the cap plate for the reinforcement of the parent of the neighboring deck plate placed on the upper surface of the beam This is provided.

According to another suitable embodiment of the present invention, a deck plate body having a constant width in the cross-sectional shape having a plurality of open ribs parallel to each other separated by a flat portion; It consists of a cover portion for closing the open ribs at both ends in the longitudinal direction of the deck plate body and a coupling portion extending horizontally to both ends of the cover portion to be seated and coupled to a flat portion, the parent formed with a connecting bar coupling groove Cap plate for cement reinforcement; A truss-type reinforcing bar configured to connect a flat portion of the deck plate body in the width direction; And a connecting bar seated in and coupled to the connecting bar coupling groove so that the cap plate for reinforcing the parent cement of the neighboring deck plate placed on the upper surface of the beam is coupled to the adjacent deck plate. Provided is an end continuous deck plate system utilizing a cap plate which is characterized by extending the reinforcing cap plate and being connected to each other.

According to another suitable embodiment of the present invention, the parent plate reinforcement cap plate is formed between the cover portion and the engaging portion is formed with a groove formed so as to be inserted into the open ribs, the latch plate is caught on the side of the main body Provided is an end continuous deck plate system utilizing a cap plate, characterized in that the jaw is formed and the blocking groove is seated.

According to another suitable embodiment of the present invention, the flat portion is formed with a coupling groove at a predetermined interval in the center, the truss-type reinforcing bar is configured with a connector at the lower portion at regular intervals, the connector is seated in the groove of the flat portion An end continuous deck plate system utilizing a cap plate is provided.

According to another suitable embodiment of the present invention, the bottom plate constituting the open ribs is formed with a dove tail groove, the deck plate adjacent the end coupling portion of the vertically bisected form of the dove tail ribs defining the dove tail groove It can be used when overlapping the ends of both sides in the width direction of.

According to another suitable embodiment of the present invention, it may further comprise a bottom connecting plate for continuing the bottom surface of the open rib of the neighboring deck plate placed on the top surface of the beam.

According to another suitable embodiment of the present invention, the lower connecting plate can be slidably coupled to overlap and have the same cross-sectional shape as the dove tail ribs.

According to another suitable embodiment of the present invention, a concrete pouring hole may be formed in the cover portion of the parent plate reinforcement cap plate.

End continuous deck plate system using a cap plate according to the present invention using a plurality of cap plate problems such as deformation of the deck plate buckling and crushing, batching and warping, etc. It is possible to effectively prevent it, and in particular, the deck plate can be continuous by using the cap plate for reinforcing the parent moment, so that the static moment occurring at the center part can be reduced, so the long span can be realized. Has

The following drawings, which are attached in the present specification, illustrate exemplary embodiments of the present invention, and together with the detailed description of the present invention, serve to further understand the technical spirit of the present invention. It should not be construed as limited.
1 is a perspective view showing a deck plate according to the present invention,
Figure 2a is a cross-sectional view taken along the line AA of Figure 1,
2B is a cross-sectional view taken along line BB of FIG. 1;
3 is a perspective view showing various embodiments of a cap plate according to the present invention;
Figure 4 is a perspective view of the end continuous deck plate system according to an embodiment of the present invention.
5 is a perspective view of the end sequencing deck plate system according to another embodiment of the present invention,
Figure 6 is a perspective view of a conventional truss composite deck plate.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

1 is a perspective view showing a deck plate according to the present invention, Figure 2 is a cross-sectional view of FIG.

1 and 2, the deck plate 10 according to the present invention is coupled to the parent plate reinforcement cap plate 13 to the deck plate main body 11 to secure the continuity of the end, the deck plate main body 11 of The truss-type reinforcing bar 14 connects the flat portions 111 to close the ribs 121 opened in the width direction with the lateral distribution with the adjacent ribs, so that the ribs 121 that are opened and placed during the concrete pouring are formed. It prevents the lateral distortion of the plate 10 and effectively resists the external force acting (especially the bending moment). In addition, the open end surface is closed to secure the deck shape and the continuity of the end.

In the present invention, the deck plate body 11 has a flat portion 111 and two side surfaces 121a, 121a extending inclined from the flat portion 111, the two adjacent deck plate body (11, 11) end The coupling portion 121e is connected in the width direction (lateral direction) to form a cross-sectional shape having a plurality of open ribs 121 parallel to each other separated by the flat portion 111. The open rib 121 has a gap between the side surfaces 121a and 121a of the neighboring rib 121, and the gap may be wider than the width of the bottom surface 121b. Therefore, the opened rib 121 has a bottom surface 121b and both side surfaces 121a, and an upper surface between the flat portions 111 has an open structure.

The deck plate body 11 configured as described above may have a constant width and may be connected to each other by overlapping end portions of both sides in the width direction of the adjacent deck plate body 11. The bottom surface 121b constituting the rib 121 is formed with a dove tail groove 121c for coupling the hardware for installing the ceiling finishing material, and a dove tail rib 121d defining the dove tail groove 121c is formed. The vertically bisected end coupling portion 121e is used to overlap the side surfaces of the adjacent deck plate body 11. When the dove tail groove 121c is not formed in the bottom surface 121b of the rib 121, that is, when the end coupling portion 121e of the above-described form is not formed, the end bending process for the separate overlapping seam is performed. Such end bends can be made and are known in the art.

On the other hand, from above, the two adjacent deck plate bodies 11 having the flat portion 111 and the two side surfaces 121a and 121a extending obliquely from the flat portion 111 are formed in the width direction using the end coupling portion 121e. It is configured in a cross-sectional shape having a plurality of open ribs 121 connected in parallel to each other (transverse direction) and separated by the flat portion 111, but separated by the flat portion 111 by bending a single steel plate. A cross-sectional shape having a plurality of open ribs 121 parallel to each other may be manufactured. In this case, instead of forming the dove tail ribs 121d, the dove tail ribs 121d are overlapped with the end coupling portions 121e. It may be formed in the process of bending to form the open rib 121.

Although not shown in the flat portion 111 and the rib 121 of the deck plate body 11 to increase the compounding effect with concrete, that is, a means for increasing the adhesion force known in the art, that is, locking ribs or embossment, etc. Can be.

The height of the dance of the deck plate body 11 in the present invention is not particularly limited, but may preferably have a range of 140mm ~ 250mm. If it is smaller than 140mm, the dance is used for a thin deck with a span of 4m or less.

If span exceeds 5m, it is used for formwork and if the span exceeds 6m due to shape instability or sag during construction compared to its rigidity, copper bar is placed and used. In this case, if the dance exceeds 250mm, the application may be restricted in relation to the beam.

The deck plate body 11 described above has the same or similar structure as the bone deck plate used mainly for formwork or a deep deck used for synthesis, and the present invention includes a bone deck plate and a deep deck. It is applicable to any deck plate known in the art having a cross-sectional shape having a plurality of open ribs 121 parallel to each other separated by flat portions 111 regardless of the shape of the and ribs.

The open ribs 121 of the deck plate body 11 are connected to each other by a cap plate 13 for reinforcing the parent cement. The parent plate reinforcement cap plate 13 is installed at both ends in the longitudinal direction of the deck plate body 11.

The parent plate reinforcement cap plate 13 is for securing the continuity of the end of the deck plate main body 11 while resisting the parent moment acting on the deck plate main body 11 during construction, and the length of the deck plate main body 11. It is coupled to connect the open top surface of the open rib 121 at both ends in the direction. Therefore, the parent plate reinforcement cap plate 13 closes the rib 121 opened at the end of the deck plate body 11. The length of the parent plate reinforcement cap plate 13 may be determined according to the length of the section receiving the parent moment when the deck plate body 11 is continuous, and preferably, the total length L of the deck plate body 11. It can be 1/6 to 1/10. The cross-sectional shape of the cap reinforcement cap plate 13 is not particularly limited, and the deck plate main body 11 adjacent to each other on the beam is constrained from the gap and lateral torsion while connecting the open upper surface of the open rib 121. It is necessary to have rigidity and strength to be connected.

The parent plate reinforcement cap plate 13 has a flat portion 111 extending horizontally at both ends of the lid portion 131 and the lid portion 131 for closing the rib 121 in which a steel plate having a predetermined thickness as a whole is opened. It may be composed of a bent steel sheet bent to have a coupling portion 132 is seated and coupled to.

As shown in Figure 3, between the cover portion 131 and the coupling portion 132 may be formed a blocking groove (13c) formed by forming a groove to be inserted into the open rib 121, deck plate A latching jaw 121f may be formed on the side surface 121a of the main body 11 to allow the blocking groove 13c to be seated on the locking jaw 121f.

Blocking groove (13c) is formed by forming a groove between the cover portion 131 and the coupling portion 132, a groove is formed in the upper portion, but a protrusion is formed in the lower portion, to fit the side of the open rib 121. Touches and bonds.

The pressure is applied to the coupling portion 132 by the pressure applied to the cover portion 131 of the cap plate 13 for reinforcing the parent, the coupling portion 132 to the flat portion 111 of the deck plate body 11 Since it is coupled, the flat portion 111 is deformed under pressure, such as distortion, and when the blocking groove 13c is configured, it is applied to the cover portion 131 of the cap plate 13 for reinforcing the parent cement. Since the pressure is transmitted to the coupling part 132 and the blocking groove 13c blocks it, it is possible to prevent the flat portion 111 from being directly deformed and deformed.

Connection bar coupling groove 133 is formed in the cover portion 131, as shown in Figure 3 (a) and (c), forming a groove formed on the upper surface of the cover portion 131 cover portion The connection bar 30 is seated and coupled to the connection bar coupling groove 133 formed on the upper surface of 131, or as shown in FIGS. 3B and 3D, the lower portion of the cover part 131 is provided. Forming a groove on the surface can be coupled by mounting the connection bar 30 to the connection bar coupling groove 133 formed on the lower surface of the cover portion 131.

The connection bar coupling groove 133 is formed so that the position is placed in the reinforcement of the connection bar 30 in a stable and constant manner so that the connection bar 30 is not separated from the cap plate 13 for the reinforcement of the parent.

Coupling portion 132 is seated on top of the flat portion 111, any method known in the art, such as welding, coupling screws, bolted joint, crimping may be applied.

As shown in (a) and (b) of Figure 3, the cover portion 131 has a flat upper surface and both inclined surfaces, or as shown in (c) and (d) of FIG. Only a flat top surface can be formed with little or no inclined surface, and the upper surface has a plurality of openings for tightly pouring concrete and allowing the concrete to be integrally synthesized without being separated by the truss-type reinforcing bars 14. Concrete pouring hole 131a may be formed.

The truss type reinforcing bar 14 is fixedly coupled to the flat portion 111 at regular intervals so as to connect the open upper surface of the rib 121 opened in the width direction of the deck plate body 11.

There is no particular limitation on the shape of the truss-type reinforcing bar 14, while connecting the open top surface of the open rib 121 to restrict the gap and lateral torsion, and open the ribs 121 of the deck plate body 11 to each other The stiffness and strength can be connected, and a triangular truss can be used as a triangle, a square, or a straight line.

Therefore, the truss type reinforcing bar 14 can select and use various types of truss type bars already developed, such as Kaiser Truss.

The truss-shaped reinforcing bar 14 functions to spread the spreading of the open ribs 121 or the working load at any position to the open ribs 121 of the adjacent adjacent decks.

The truss type reinforcing bar 14 manufactures a part of the reinforcing bar in the form of truss, and integrates it into the flat type deck plate main body 11 so that the temporary load can be divided by the truss type reinforcing bar 14 so that the deck plate It is to reduce the thickness of the structure and to reduce the overall thickness of the base plate.

The flat portion 111 of the deck plate body 11 has a coupling groove 111b formed in the center portion in the longitudinal direction, and the coupling groove 111b corresponds to the shape of the connector 145 of the truss-type reinforcing bar 14. It is composed of a shape.

The truss-type reinforcing bar 14 may have a connector 145 formed at a lower interval at a predetermined interval so that the connector 145 may be seated in the groove 111b of the flat portion 111. The connector 145 may be configured in various shapes such as a box shape or a channel shape with an open bottom portion. The deck plate body 11 and the truss-type reinforcing bar 14 may be coupled by various methods known in the art, such as welding and bolting.

As shown in FIG. 3, in the drawing, the cover part 131 of the parent reinforcement cap plate 13 is illustrated as protruding upward, but the present invention is not limited thereto and may protrude downward or have a flat shape. In the case of protruding downward, the slab concrete has an advantage of reducing the height, and when protruding upward, there is an effect of increasing the composite effect with the slab concrete. In addition, if the deck plate body 11 can be effectively reinforced with respect to the load during construction may be configured in the form of a flat plate having a predetermined thickness.

The constant moment reinforcement cap plate 15 is coupled to connect the open upper surface of the rib 121 opened at the center in the longitudinal direction of the deck plate body 11. The length of the positive moment reinforcement cap plate 15 may be determined according to the length of the section receiving the constant moment when the deck plate main body 11 is continuous, and preferably the total length L of the deck plate main body 11 It can be 1/6 to 1/10. The cross-sectional shape of the cap plate 15 for the constant moment reinforcement is not particularly limited, and the opening rib 121 of the deck plate body 11 is constrained by restricting the gap between the open top surface of the open rib 121 and the transverse twist. It is necessary to have rigidity and strength that can be connected to each other.

Therefore, the positive moment reinforcement cap plate 15 also closes the rib 121 opened in the same shape as the parent moment reinforcement cap plate 13.

A plurality of concretes are placed on the upper surface of the positive moment reinforcement cap plate 15 so that concrete can be poured tightly with an open rib 121 and the concrete is integrally formed without being separated by the positive moment reinforcement cap plate 15. A pour hole 151a may be formed.

The constant moment reinforcement cap plate 15 is disposed at regular intervals other than the end of the deck plate body 11 to improve bending performance.

Deck plate 10 having a cap plate according to the present invention configured as described above a number of problems such as deformation of the buckling and stiffness, such as buckling and distorting during the concrete pouring of the deck plate is formed by bending a thin steel sheet The cap plate can be effectively prevented.

The following describes an end continuous deck plate system using a deck plate configured as described above.

Figure 4 is a perspective view of the end continuous deck plate system according to an embodiment of the present invention.

As in FIG. 4, the end sequencing deck plate system includes a deck plate 10 having a cap plate of the above-described structure, which is raised on both sides in the width direction of the beam 20 and supported by the beam 20, and the beam ( Consists of the connecting bar 30 to connect the cap plate for the reinforcement of the parent of the neighboring deck plate 10 placed on the upper surface of the 20 to each other, and the adjacent deck plate placed on the upper surface of the beam 20 ( 10 may further include a lower connection plate 33 that connects the bottom surfaces 121b of the open ribs 121 to each other to be continuous.

The type of the beam 20 to which the present invention can be applied is not limited, and may be applied to any beam known in the art, such as cast-in-place concrete beams, precast concrete beams, steel beams, composite beams, and the like.

The connecting bar 30 is disposed across the beam 20, and the adjacent deck plate 10 placed on the beam 20 by connecting the cap plate 13 for reinforcing the parent cement of the adjacent deck plate 10 to each other. ). In the drawing, the connecting bars 30 are illustrated as being arranged in two, but this is merely an example, and the number of the connecting bars 30 is not limited thereto.

The connection bar 30 may use a variety of materials, for example, rebar, steel bar, flat bar (flat bar) and the like can be used.

When the dove tail grooves 123 are formed on the bottom surface 122 of the open rib 12, the dove tail ribs 124 of the deck plate body 11 adjacent to each other are connected to each other with the lower connection plate 33. . The lower connection plate 33 has the same cross-sectional shape as the dove tail ribs 124 and has a larger cross-sectional dimension so that it can be slidingly overlapped. When the dove tail ribs 124 are not formed on the deck plate body 11, the lower connection plate 33 may have a plate shape and form a shape in which the bottom surfaces 121b of the open ribs 121 are connected to each other. .

 Therefore, in the present invention, the ends of the deck plate 10 are continuous to each other by the upper connecting bar 30 and the lower connecting plate 33.

5 is a perspective view illustrating an end continuation deck plate system according to another exemplary embodiment of the present invention.

Referring to FIG. 5, the deck plates 10 placed on the beams 20 and supported by the beams 20 extend the parent plate reinforcement cap plates 13 instead of being connected to each other using the connection bar 30. Deck plates 10 mounted on both sides of the beam and adjacent to each other may be connected to each other. In this case, the parent plate reinforcement cap plate 13 may be coupled to connect the deck plate 10 adjacent to the site after placing the deck plate 10 on the beam.

As described above, the end continuous deck plate system according to the present invention can effectively resist the parent moment by using the cap plate for reinforcing the parent moment, and the continuous moment of the deck plate can be reduced to reduce the static moment generated at the center part. It has the advantage that there is no need to install clubs.

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

11: deck plate body
111: flat part
121: open rib
13: Cap plate for reinforcement of parent
14: Truss type rebar
15: Cap plate for reinforcing moment
20: precast concrete beam
30: connecting bar
33: lower connection plate

Claims (9)

A deck plate body 11 having a constant width in a cross-sectional shape having a plurality of open ribs 121 parallel to each other separated by the flat portion 111;
Cover portion 131 for closing the rib 121 open at both ends in the longitudinal direction of the deck plate body 11 and horizontally extended to both ends of the cover portion 131 is seated on the flat portion 111 and coupled Consists of the coupling portion 132 is formed, the cap portion 13 for the reinforcement of the parent portion formed with a connecting bar coupling groove 133 in the cover portion 131;
A truss-type reinforcing bar 14 configured in the width direction of the deck plate main body 11 to connect the flat portion 111;
And a connecting bar (30) seated and coupled to the connecting bar coupling groove (133) so that the cap plate (13) for reinforcing the parent cement of the neighboring deck plate placed on the upper surface of the beam is continuous. End continuous deck plate system utilizing plates. A deck plate body 11 having a constant width in a cross-sectional shape having a plurality of open ribs 121 parallel to each other separated by the flat portion 111;
Cover portion 131 for closing the rib 121 open at both ends in the longitudinal direction of the deck plate body 11 and horizontally extended to both ends of the cover portion 131 is seated on the flat portion 111 and coupled Consists of the coupling portion 132 is formed, the cap portion 13 for the reinforcement of the parent portion formed with a connecting bar coupling groove 133 in the cover portion 131;
A truss-type reinforcing bar 14 configured in the width direction of the deck plate main body 11 to connect the flat portion 111;
A connection bar 30 seated and coupled to the connection bar coupling groove 133 to continue the cap plate 13 for reinforcing the parent cement of the neighboring deck plate placed on the upper surface of the beam; And a deck plate adjacent to the upper surface of the beam is connected to each other by extending the cap plate (13) for reinforcing the parent reinforcement. The method of claim 1,
The parent plate reinforcement cap plate 13 includes a blocking groove 13c formed by forming a groove to be inserted into the open rib 121 between the cover portion 131 and the coupling portion 132, the deck plate End sequencing deck plate system utilizing a cap plate, characterized in that the locking step (121f) is formed on the side surface (121a) of the main body 11 is seated in the blocking groove (13c). The method according to claim 1 or 3,
The flat portion 111 has a coupling groove 111b is formed at a predetermined interval in the center portion, the truss-type reinforcing bar 14 is formed with a connector 145 in the lower portion at regular intervals, the groove 111b of the flat portion 111 End continuation deck plate system utilizing a cap plate, characterized in that the connector 145 is seated and coupled to. The method according to claim 1 or 3,
A dove tail groove 121c is formed on a bottom surface of the open rib 121, and an end coupling portion having a shape in which the dove tail rib 121d defining the dove tail groove 121c is vertically bisected is adjacent to the deck. An end continuation deck plate system using a cap plate, characterized in that it is used when overlapping the end of both sides in the width direction of the plate. 6. The method of claim 5,
An end continuation deck plate system utilizing a cap plate further comprising a lower connecting plate 33 for continuing the bottom surface 121b of the open rib 121 of the neighboring deck plate placed on the upper surface of the beam. . The method according to claim 6,
An end continuous deck plate system utilizing a cap plate, wherein the lower connection plate is slidably coupled to overlap and have the same cross-sectional shape as the dove tail ribs. The method according to claim 1 or 3,
End portion continuous deck plate system using a cap plate, characterized in that the cover portion of the parent plate reinforcement cap plate 13 is formed with a concrete pouring hole (131a). 5. The method of claim 4,
End plate continuation deck plate utilizing the cap plate, characterized in that the cap plate 15 for connecting the flat portion to connect the flat portion to close the rib 121 opened in the center in the longitudinal direction of the deck plate body 11 is formed system.

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