KR101080440B1 - Truss, deck plate structure equipped with truss and deck plate structure building method - Google Patents

Abstract

PURPOSE: Trusses, a deck plate structure in which the trusses are installed, and a deck plate structure construction method are provided to facilitate the installation of a deck plate structure by employing one or more supports surrounding and supporting reinforcing bars. CONSTITUTION: A deck plate structure(200) comprises trusses and a pair of first coupling ribs. Each truss comprises a first support(122a), a second support(122b), a slope connector(131a), and a bottom connector(131b). The first and second supports surround and support reinforcing bars. The slope connector and the bottom connector connect and support the first and second supports. The first coupling ribs are extended lengthwise in parallel to each other and contact both ends of the bottom connector of the truss.

Description

Truss, deck plate structure equipped with truss and deck plate structure construction method {Truss, deck plate structure equipped with truss and deck plate structure building method}

The present invention relates to a deck plate structure including a truss of a novel configuration, a deck plate on which the truss is easily installed, and a construction method of the deck plate structure.

In general, the slab is a structural plate bending member mainly responsible for the structural load and the diaphragm function for the lateral force is a design consideration important not only the strength but also the sag and crack. In general, low and medium-sized buildings with reinforced concrete structures consist of reinforced concrete slabs, and in the case of high-rise buildings with steel or steel reinforced concrete structures, concrete slabs are placed on deck plates. This predominates.

In particular, in the construction of slab floors in large buildings, truss composite deck plate structures including trusses, deck plates, and reinforcing bars are mainly used to solve various problems due to the dismantling of the formwork.

On the other hand, Figure 1 is a perspective view showing the truss composite deck plate structure 400 currently being used, basically the composite deck plate structure 400, at least one deck plate 410 used as a base member of the slab, The upper and lower reinforcing bars 420.425 installed while extending in the longitudinal direction on the deck plate 410, and the truss 430 for supporting the upper reinforcing bars 420 apart from the deck plate 410, and this triangular truss The lower reinforcing bar welded to the surface of the deck plate 410 in the inner space of the substantially triangular shape defined by the upper reinforcing bar 420 and the truss 430 coupled to the tip of the (430) by welding or wire ( 425 is configured to include a vertical connecting lattice member 423 and the inclined connecting lattice member 427 for interconnecting and coupling.

Furthermore, the truss 430 is installed on the deck plate 410 in a plural number in the transverse direction and in the longitudinal direction, and is connected in the longitudinal direction via the upper and lower reinforcement and the lattice 423 and 427, and is required in the transverse direction. Depending on the foot (foot) is fixed on the deck plate or interconnected via a connecting portion 439 which is extended by the foot. On the other hand, the foot or connecting portion 439 is supported on the surface of the deck plate 410 to support the truss 430 to the surface. In FIG. 1, a state in which a plurality of tips are welded along a length direction of a truss 430 made of a wire rod formed by extending a plurality of tips in a lateral direction is illustrated.

In addition, the deck plate 410 is made of a metal plate, which is generally made of galvanized steel sheet, and is connected to the other deck plate 410 'adjacent to each other through the connecting end 415 provided at both ends to the required area Can be arranged continuously. In addition, a portion of the surface of the deck plate 410 corresponding to the foot or the connecting portion 439 is formed with a triangular rib 412 bent to a predetermined height; The foot or connection is disposed on the rib 412 and is coupled to the rib by, for example, electrical resistance welding.

By the way, in the truss composite deck plate structure 400 of the conventional structure, it is not easy to combine the upper and lower reinforcing bar in the state in which the plurality of trusses 430 arranged in the longitudinal direction on the deck plate. Specifically, the rebar was not fixed to the other truss while joining one bar and truss through welding or wire bundling, which made the bar difficult to work off the truss surface. . Moreover, there was a problem in that the welded portion fell along with the movement of the reinforcing bar during the welding operation of the reinforcing bar extending in the longitudinal direction.

Accordingly, the present invention has been made in view of the above circumstances, and is provided with at least one support part surrounding and supporting the reinforcing bar, and thus, a novel configuration capable of easily performing the installation work without the above problems. The purpose is to provide a truss of.

In addition, an object of the present invention is to provide a deck plate structure including a deck plate having a configuration in which the trusses and reinforcing bars are easily installed. Another object of the present invention is to provide a construction method of the deck plate structure.

Specifically, it is an object of the present invention to provide a deck plate structure and a construction method thereof, in which a joining operation can be performed in a state in which a longitudinally extending rebar is fixed to a truss.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the precise form disclosed. There will be.

Truss according to the present invention for achieving the above object is
A first support portion 122a spaced from the bottom and a second support portion 122b formed on the bottom surface in an arc shape having a circular shape or an open side to support the reinforcing steel; And
Bottom connection part forming the second support part 122b while forming a closed curve by connecting the symmetrical inclined connection part 131a and the symmetrical inclined connection part 131a so that the first support part 122a can be spaced apart from the floor ( 131b) includes a connecting portion 130.
At this time, the connecting portion is characterized in that formed of wire or plate.

On the other hand, deck plate assembly according to another embodiment of the present invention is the truss; And
The truss is installed upright on the surface, and comprises a deck plate comprising a pair of first coupling ribs extending in parallel with each other in the longitudinal direction on the surface to contact both ends of the bottom connection of the truss.

And, the construction method of the deck plate assembly according to another embodiment of the present invention
Positioning a bottom connection of the truss in a space between the pair of first engaging ribs extending in the longitudinal direction;
Coupling the truss to opposite first coupling ribs at both ends of the bottom connecting portion in an upright state of the truss;
Inserting rebar on the support and then joining the support and the rebar;
Engaging between the reinforcing bar coupled to the support of the bottom connection and the deck plate surface.

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According to the configuration as described above, when assembling the deck plate structure, by inserting the reinforcing bar in the longitudinal direction for a plurality of trusses on the deck plate, the reinforcing bar can be completed, so that the assembly work can be performed smoothly do.

In addition, since at least one support part surrounding and supporting the reinforcing bar is provided, the welding or bundle operation can be performed while supporting the reinforcing bar in a corresponding support part of the truss standing up in the longitudinal direction, thereby facilitating installation work. Can be done.

In addition, the installation work of the deck plate structure is easily performed.

1 is a perspective view showing a general deck plate structure,
2 is a view showing a schematic configuration of a truss according to embodiments 1 to 5 of the present invention,
3 is a perspective view showing a deck plate structure according to the present invention,
4 is a view showing a schematic configuration of a truss according to embodiments 6 to 10 of the present invention,
5 is a view showing a schematic configuration of a truss according to embodiments 11 to 14 of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

[Example]

2 is a view showing various forms of the truss according to an embodiment of the present invention. First, the truss 100 according to the present invention includes at least one support 120 for supporting the reinforcing bar; It is comprised including the connection part 130 which supports, supporting this support part.

Here, the support part may be formed of, for example, a circular support part 121 (see FIG. 4) formed as a circular closed surface or a closed curve, or an arc-shaped support part 122 having one side open.

In addition, the support part 120 is provided on a joint (eg, a bent part or a corner) between the connection parts which are bent at a predetermined angle and extend in the longitudinal direction and / or the connection part 130 which extends in the longitudinal direction.

On the other hand, the connection portion 130 is a linear connection portion 131 (wire) produced by tensioning an iron material (for example, hot coil) and / or plate-shaped (or plate) connection portion (132: plate) produced by forging treatment Can be done. The circular support 121 or the circular support 122 may be integrally coupled to the linear connector 131 or the plate connector 132 by welding or the like, or may be formed on the linear connector by punching or the like.

In addition, the connecting portion 130 is a linear to maintain the support 120, which may be composed of a circular support 121 or an arc-shaped support 121, spaced apart from the floor (hereinafter, the surface of the deck plate described) It comprises an inclined connecting portion 131a and a linear bottom connecting portion 131b for mutually connecting one end of the inclined connecting portion 131a and supporting the bottom. In addition, the connecting portion 130, as described below with reference to Figure 5 may be configured to include a plate-shaped (or plate) inclined and bottom connecting portion (132a, 132b). In addition, the linear and plate may be provided in a combined form.

On the other hand, the truss 100 may be a plurality of support parts 120 are sequentially connected by the connecting portion 130, it may be formed in a polygonal shape, for example, a closed curved surface or closed curve shape of a triangular shape. That is, the truss 100 is bent in the shape of the support 120 and the connecting portion 130 of the wire or plate extending in the longitudinal direction, and then coupled to both ends, polygonal closed surface having an internal longitudinal hole or It may be formed in the form of a closed curve.

Hereinafter, various types of trusses 100 will be described with reference to the drawings.

Example 1

Figure 2 (a) is a view showing a truss form according to the first embodiment of the present invention, the circular arc support portion 122 and the arc-shaped support portion 122 that is opened to support while surrounding the reinforcing bar, while supporting A first truss 101 is shown comprising a linear inclined and bottom connection 131a, b.

Here, the first truss 101, for example, by bending the wire extending in the longitudinal direction, to form the shape of two arc-shaped support portion 122 and three connecting portions (131a, b), both ends thereof By welding at the welding point a, it can be formed into a substantially triangular shape.

In addition, one (upper) arc-shaped support part 122a is formed by bending at an upper connecting part (upper end), which is an upper end of two inclined connection parts 131a, which are triangular hypotenuses, and another (lower) arc-shaped support part. 122b is bent and formed on the bottom connection part 131b which interconnects the lower end part (joint part) of the inclined connection part 131a. Here, the lower arc supporting portion 122b formed on the bottom connecting portion 131b is preferably located directly below the upper arc supporting portion 122a.

Furthermore, the arc-shaped support portions 122a and b open outwardly from the first truss 101 having a closed curve shape. Specifically, as shown in Fig. 1, arc-shaped support portions 122a and b are opened toward the upper and lower portions, respectively.

Hereinafter, the deck plate structure and the construction method of the first truss 101 according to the first embodiment will be described with reference to FIG. 3.

Deck plate 200 according to an embodiment of the present invention, spaced apart by a length L approximately equal to the length of the bottom connection portion 131b of the first truss 101 along the transverse direction protruding from the surface of the deck plate At the same time it comprises a first coupling rib 210 extending along the longitudinal direction.

In addition, as needed, between the pair of first (left and right) first coupling ribs 210a and b, a second coupling rib 220 extending in a longitudinal direction to contact the bottom connection portion 131b protrudes from the surface by a predetermined height. Can be formed. The second coupling rib 220 is formed to be lower than the height of the first coupling ribs 210a and b. In addition, a third coupling rib having a lower height than the second coupling rib 220 may be formed to protrude a predetermined height from the surface between the second coupling ribs 220. That is, the coupling ribs may be formed up to the n-th coupling rib according to the transverse length of the deck plate. In this case, the length specification of the bottom connection portion of the truss may be variously formed according to the length L between the first to n-th coupling ribs.

On the other hand, the construction method of the deck plate structure 300 using the first truss 101 and the deck plate 200, first between the pair of the first coupling ribs (210a, 210b), of the first truss 101 By hypothetically positioning the bottom connecting portion 131b, the two ends of the bottom connecting portion 131b are brought into contact with the first coupling ribs 210a and 210b. In this state, both ends of the bottom connecting portion 131b are coupled (welded) to the first coupling ribs 210a and 210b (S11).

By repeating this process along the longitudinal direction, a plurality of first trusses 101 stands up in the longitudinal direction between the first coupling ribs 210a and 210b on the deck plate 200. In this state, the upper arc-shaped support 122a and the lower arc-shaped support 122b are located in a straight line.

Therefore, the upper and lower reinforcing bars 420 and 325 are inserted and positioned with respect to the upper and lower arc-shaped support portions 122a and 122b (S12). Subsequently, the upper and lower arc-shaped support portions 122a and 122b and the upper and lower reinforcing bars 420 and 425 are joined by a welding or a wire (S13).

Then, the lower reinforcing bar 420 coupled to the lower arc-shaped support part 122b is coupled (welded) to the surface of the deck plate 200. In this case, in order to facilitate welding between the lower reinforcing bar 420 and the surface of the deck plate 200, it is preferable that the ribs are positioned on the surface facing the lower arc support 122b.

The upper and lower reinforcing bars 420 and 425 are coupled using the vertical connecting lattice 423 (S14), and coupled using the inclined connecting lattice 427 (S15) to form a deck plate structure.

Meanwhile, the truss 100 according to the present invention may be combined with the conventional deck plate 300 shown in FIG. 1 to form the deck plate structure of another embodiment.

Example 2

Figure 2 (b) is a view showing the shape of the truss 102 according to the second embodiment of the present invention, the upper and lower arc-shaped support (122a, 122b) opened to support the surrounding bar; A linear connection portion 131 including the inclined connection portion 131a and the bottom connection portion 131b for supporting the arc-shaped support portions 122a and 122b while being connected; A truss 102 is shown that includes a vertical connection portion 131c connecting the upper arc support portion 122a and the lower arc support portion 122b.

In addition, similarly to the first embodiment according to FIG. 2A, the truss 102 according to the second embodiment is formed by bending the wire rod to form two arc-shaped support portions 122 and linear inclined and bottom connecting portions 131. After fabrication, the two ends are welded at the welding point a to form a substantially triangular shape; In addition, an upper arc-shaped support portion 122a is formed at the upper connection portion (upper end) of the two inclined connection portions 131a, and the lower arc-shaped support portion 122b interconnects the lower connection portion (lower end portion) of the inclined connection portion 131a. It is formed on the bottom connection portion 131b and is configured to open outward from the truss 102 defined by the closed curve.

In addition, the vertical connection portion 131c is hypothetically coupled between the lower arc-shaped support portion 122b and the upper arc-shaped support portion 122a through welding. Meanwhile, in FIG. 2B, only one lower arc-shaped support 122b and one vertical connecting rod 131c positioned below the upper arc-shaped support 122a are illustrated, but a plurality of them may be provided. .

When constructing the deck plate structure using the truss 102 and the deck plate 200 according to the second embodiment, the coupling work of the vertical connection lattice 423 becomes unnecessary (as construction step S14 is omitted). The construction process is simplified.

Example 3

Figure 2 (c) is a view showing the shape of the truss 103 according to the third embodiment of the present invention, the truss 103 is formed at the corner of the triangular-shaped truss while being opened to support while surrounding the rebar An arc-shaped support portion 122 including upper and (right and left) arc-shaped supports 122a and 122c; It consists of the linear inclination and bottom connection part 131 comprised including the inclined connection part 131a and the bottom connection part 131b which support this arc-shaped support part 122 while connecting.

In addition, similar to the first embodiment according to Fig. 2 (a), the truss 103 according to the third embodiment is bent the wire extending in the longitudinal direction, the upper and left and right arc-shaped support portions (122a, 122c) and linear After the inclined and bottom connecting portions 131 are manufactured, the ends are welded to form closed triangles having a substantially triangular shape; The upper and left and right arcuate supports 122a and 122c open outward from the truss 102 defined by the closed curve.

In addition, when the deck plate structure is constructed using the truss 103 and the deck plate 200 according to the third embodiment, upper and left and right arc-shaped support portions 122a formed at three corners of the triangular truss. The upper and lower reinforcing bars 420 and 425 are coupled to each other by welding or a wire, and the lower reinforcing bars 420 coupled to the left and right arc-shaped support parts 122c formed at both ends of the bottom connection part 131b are attached to the surface of the deck plate 200. To (weld). That is, the bottom connection portion 131b of the truss 103 may be coupled to the surface (and / or the first rib) of the deck plate 200 through the lower reinforcing bars 420 coupled to the left and right corner portions.

Accordingly, the standing structure of the truss 103 and the structure of the deck plate structure 300 become more firm.

In addition, the vertical connection portion 131c may be hypothetically coupled between the upper arc-shaped support portion 122a and the bottom connection portion 131b through welding. In this case, in assembling the deck plate structure, as the joining operation of the vertical connection lattice 423 becomes unnecessary (as the construction process S14 is omitted), the construction process is simplified.

Example 4

Figure 2 (d) is a view showing the shape of the truss 104 according to the fourth embodiment of the present invention, a linear inclination and bottom connection portion 131 including the inclined connection portion 131a and the bottom connection portion 131b )Wow; A truss 104 is shown comprising at least one side arcuate support 122d formed on these linear inclined and bottom connections 131a and 131b. On the other hand, in Fig. 2 (d) is shown a state in which two support portions are formed on the inclined and bottom connecting portions (131a, 131b), respectively, but the number is not limited.

Further, the truss 103 according to the fourth embodiment bends the wire rod extending in the longitudinal direction to form the inclined and bottom connection portions 131a and 131b having the side arc-shaped support portions 122d, and then both ends thereof. Is welded to form a substantially triangular closed curve, and the side arc support portion 122d is opened outward from the truss 102 defined by the closed curve.

On the other hand, when constructing a deck plate structure using the truss 104 and the deck plate 200 according to the fourth embodiment, a plurality of reinforcing bar is provided on the connecting portion (131a, 131b), in particular the bottom connection portion (131b) It can be coupled to the side arc-shaped support that is. In addition, the plurality of lower reinforcing bars provided at the bottom connection portion can be easily welded to and bonded to the surface of the deck plate. In this case, it is preferable that ribs are provided on the opposing surface of the deck plate.

As a result, the standing structure of the truss 104 and the structure of the deck plate structure are more firm.

In addition, the vertical connection portion 131c may be hypothetically coupled between the upper arc-shaped support portion 122a and the bottom connection portion 131b through welding. In this case, in assembling the deck plate structure, as the joining operation of the vertical connection lattice 423 becomes unnecessary (as the construction process S14 is omitted), the construction process is simplified.

Example 5

Figure 2 (e) is a view showing the shape of the truss 105 according to the fifth embodiment of the present invention, a linear inclination and bottom connection portion 131 including the inclined connection portion 131a and the bottom connection portion 131b )Wow; At least one side arc-shaped support 122d formed on the linear inclined and bottom connecting portions 131a and 131b and the joint between the linear inclined and bottom connecting portions 131a and 131b, that is, the edge of the triangular truss. A truss 105 is shown that includes upper and left and right arc shaped supports 122a and 122c formed therein.

On the other hand, when the deck plate structure is constructed using the truss 105 and the deck plate 200 according to the fifth embodiment, more reinforcing bars (four are shown in the figure) than the fourth embodiment, the connection portion 131a, 131b), particularly the side arc-shaped support provided on the bottom connection 131b. In addition, the plurality of reinforcing bars provided in the bottom connection part 131b may be welded to the surface of the deck plate 200 to be joined.

As a result, the standing structure of the truss 104 and the structure of the deck plate structure are more firm.

In addition, the vertical connecting portion 131c may be hypothetically coupled between the upper arc supporting portion 122a and the bottom connecting portion 131b or the side arc supporting portion 122d through welding. In this case, in assembling the deck plate structure, as the joining operation of the vertical connection lattice 423 becomes unnecessary (as the construction process S14 is omitted), the construction process is simplified.

On the other hand, in the above embodiments 1 to 5, the linear inclined and bottom connection portion 131 may be replaced by a plate-shaped connection portion 132.

Hereinafter, with reference to FIG. 4, the modified example (Example 6 thru | or 10) of Examples 1-5 is demonstrated.

(Examples 6 to 10)

Figure 4 (a) is a view showing the shape of the truss according to the sixth embodiment of the present invention, a modification of the first embodiment according to Figure 2 (a), the upper and lower arc-shaped support portion (122a, 122b) is the upper and lower circular Truss 106 is shown replaced by supports 121a and 121b.

On the other hand, in the truss 106 according to the sixth embodiment, the lower circular support 121b is preferably located inside the triangle closed curve. If necessary, it may be formed by protruding outside the closed curve. In addition, as in the first embodiment, it is more preferable to be formed of an arc-shaped support portion 121b opened outward. In addition, the lower circular support 121b formed on the bottom connection portion 131b is preferably located directly below the upper circular support 121a.

Accordingly, the coupling (welding) of the lower reinforcing bar to the deck plate can be easily performed.

4 (b) is a view showing the shape of the truss according to the seventh embodiment of the present invention. As a modified example of the second embodiment according to FIG. 2 (b), the upper and lower arc-shaped support portions 122a and 122b are upper and lower parts. The truss 107 is shown in the state replaced by the circular support parts 121a and 121b.

In addition, Figure 4 (c) is a view showing the shape of the truss according to the eighth embodiment of the present invention, a modification of the third embodiment according to Figure 2 (c), the upper and left and right arc-shaped support (122a, 122c) The truss 108 is shown with the top replaced by the upper and left and right circular supports 121a and 121c.

On the other hand, in the truss 108 according to the eighth embodiment, the vertical connection portion 131c may be hypothetically coupled between the upper arc-shaped support portion 122a and the bottom connection portion 131b through welding.

In addition, Figure 4 (d) is a view showing the shape of the truss according to the ninth embodiment of the present invention, a modification of the fourth embodiment according to Figure 2 (d), the linear inclined and bottom connection portion (131a, 131b) The truss 109 is shown in which at least one side arcuate support 122d formed on the surface is replaced by the side circular support 121d.

Meanwhile, in the truss 109 according to the ninth embodiment, the vertical connecting portion 131c may be hypothesized and coupled between the upper arc-shaped support portion 122a and the bottom connecting portion 131b through welding.

In addition, Figure 4 (e) is a view showing the shape of the truss according to the tenth embodiment of the present invention, a modification of the fourth embodiment according to Figure 2 (d), linear inclined and bottom connection portion (131a, 131b) At least one side arc-shaped support 122d formed on the upper and left and right arc-shaped support portions 122a formed at the junction of the linear inclined and bottom connecting portions 131a and 131b, that is, at the corners of the triangular truss. The truss 110 is shown in which 122c is replaced by the upper side and the left and right circular supports 121a and 121c.

On the other hand, in the above embodiments 6 to 10, the linear inclined and bottom connection portion 131 may be replaced by a plate-shaped connection portion 132. Hereinafter, another modified example (Example 11-14) of the truss which concerns on this invention with reference to FIG. 5 is demonstrated.

(Example 11)

FIG. 5 (a) is a view showing the shape of the truss 111 according to the eleventh embodiment of the present invention. The truss 111 is formed at the corner of the triangular truss while being opened to support the rebar. An arc-shaped support portion 122 including upper and left and right arc-shaped supports 122a and 122c; A linear connecting portion 131 including an inclined connecting portion 131a and a bottom connecting portion 131b for supporting the circular arc supporting portion 122 while being connected thereto; And an upper extension connecting portion 131c extending vertically upward from the upper arc supporting portion 122a and an arc supporting portion 122d provided at an end of the upper extending connecting portion 131c.

In addition, the truss 111 bends the wire rod extending in the longitudinal direction to form the inclined and bottom connecting portions 131a and 131b having the side arc-shaped support 122d, and then welds both ends thereof. It is formed by forming the closed curve of a triangular shape, and welding the upper extension connection part 131c in which the arc-shaped support part 122d was formed to the upper arc-shaped support part 122a.

The truss 111 according to the eleventh embodiment can be varied in the installation height of the reinforcing bar to the truss by selectively inserting the upper reinforcing bar into the arcuate support portions 122a and 122d during the rebar coupling operation.

In addition, in the truss 111 according to the eleventh embodiment, the vertical connection portion 131c may be hypothetically coupled between the upper arc-shaped support portion 122a and the bottom connection portion 131b through welding.

Example 12

FIG. 5B is a view showing the shape of the truss 112 according to the twelfth embodiment of the present invention. The truss 112, like the truss 111 according to the eleventh embodiment, surrounds and supports steel bars. An arc-shaped support portion 122 which includes an upper and left and right arc-shaped support portions 122a and 122c which are open at the same time and are formed at the corners of the triangular truss; Linear inclined and bottom connecting portions 131a and 131b configured to include an inclined connecting portion 131a and a bottom connecting portion 131b for supporting the arc-shaped support 122 while being connected; And an upper extension connecting portion 131c extending vertically upward from the upper arc supporting portion 122a and an arc supporting portion 122d provided at an end of the upper extending connecting portion 131c.

In addition, at least one side arc-shaped support portion 122d formed on the inclined and bottom connecting portions 131a and 131b and at least one side arc-shaped support portion 122e formed on the upper extension connecting portion 131c. It is composed.

On the other hand, in the above embodiments 11 and 12, the arc-shaped support 122 may be replaced by at least one or both circular support 121.

Example 13

5 (c) is a view showing the shape of the truss 113 according to the thirteenth embodiment of the present invention, the truss 113 is a slanted and bottom connection made of a substantially triangular plate-shaped (or plate) connection 132 132a, 132b and circular support parts 121a, 121c, 121d formed by punching on the plate-shaped inclined and bottom connecting portions 131a, 131b.

In addition, it comprises an upper extension connecting portion 132c extending vertically upward from the upper end of the inclined and bottom connecting portion 132a, and at least one circular support portion 121d formed on the upper extending connecting portion 131c. do.

Example 14

FIG. 5 (d) is a view showing the shape of the truss 114 according to the fourteenth embodiment of the present invention. The truss 113 is an inclined connection portion 132a which is made of a substantially triangular plate-shaped (or plate) connection portion 132. )Wow; It is comprised including the circular support parts 121a, 121c, 121d formed on this inclined connection part 131a.

In addition, the upper extension connecting portion 132c extending vertically upward from the upper end of the inclined connecting portion 132a, and at least one circular supporting portion 121d formed on the upper extending connecting portion 131c.

On the other hand, in the above embodiments 13 and 14, the plate-shaped connection portion 132 may be replaced by the linear connection portion 131 in part or in whole.

In an embodiment of the present invention, the mesh is coupled along the inclined connection portion 131a of the plurality of trusses to increase the strength by strengthening the bond with the concrete.

The possible embodiments of the present invention have been described in detail above. It is to be understood that all of the above embodiments and combinations between the embodiments are included within the technical scope of the present invention.

121-circular support, 122-circular support,
131-linear connection, 131a-linear oblique connection,
131b-linear bottom connection, 131c-linear vertical connection,
132-plate connection.

Claims (10)

A first support portion 122a spaced from the bottom and a second support portion 122b formed on the bottom surface in an arc shape having a circular shape or an open side to support the reinforcing steel;
Bottom connection part forming the second support part 122b while forming a closed curve by connecting the symmetrical inclined connection part 131a and the symmetrical inclined connection part 131a so that the first support part 122a can be spaced apart from the floor ( Truss comprising a connecting portion (130) consisting of 131b).
The method of claim 1,
Truss characterized in that the connecting portion is formed of a wire or plate.
Truss according to claim 2; And
The truss is installed upright on the surface, deck plate assembly comprising a deck plate comprising a pair of first coupling ribs extending in parallel in the longitudinal direction on the surface to contact both ends of the bottom connection of the truss .
As a construction method of the deck plate assembly according to claim 3,
Positioning a bottom connection of the truss in a space between the pair of first engaging ribs extending in the longitudinal direction;
Coupling the truss to opposite first coupling ribs at both ends of the bottom connecting portion in an upright state of the truss;
Inserting rebar on the support and then joining the support and the rebar;
And coupling the rebar coupled to the bottom plate surface on the support of the bottom connection part. delete delete delete delete delete delete

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