KR101028372B1 - Construction for connection of the truss assembled deck plates - Google Patents

Abstract

The present invention relates to a horizontal beam connecting structure of a truss composite deck plate consisting of a metal formwork and reinforcing bar when building a reinforced concrete building, a base plate made of a metal plate, and a deck plate made of a truss girder fixed on the base plate In the connection structure of the base plate is disposed so as to span the upper both sides of the cross beam formwork forming the cross beam of the building structure; While the lower reinforcing network is sandwiched between the lower reinforcing members of both deck plates, the lower reinforcing network is fixedly coupled to the lower reinforcing members of both deck plates using wires or the like; The upper reinforcing bar network is fixedly coupled to the upper reinforcing bar members of both deck plates using a wire or the like while the upper reinforcing bar network is sandwiched between the upper reinforcing bar members of both deck plates. By connecting the truss composite deck plate in this way, it is possible to connect a plurality of upper reinforcing member and lower reinforcing member at the same time, thereby reducing the work maneuver and thus obtaining the effect of working conveniently.

Truss composite deck plate, truss composite deck plate connection method, truss composite deck plate connection structure

Description

CONSTRUCTION FOR CONNECTION OF THE TRUSS ASSEMBLED DECK PLATES}

1 is a perspective view showing a typical truss composite deck plate,

2 is a front view of FIG. 1;

3 is a perspective view of the general truss composite deck plate connected to both sides of the reinforcing bars constituting the crossbeam,

4 is a plan view of a state in which a lower reinforcing bar connecting network connecting lower reinforcing member of the truss composite deck plate disposed on both sides of the cross beam according to the method of the present invention,

5 is a plan view of a state in which the upper reinforcing bar connecting network connecting the upper reinforcing members of the truss composite deck plate on both sides of the horizontal beam is arranged through the process of Figure 4 in accordance with the method of the present invention,

Figure 6 is a cross-sectional view showing a state in which the upper and lower reinforcing member of the truss-tech composite plate disposed on both sides of the cross beam by the upper and lower reinforcing bar network in accordance with the method of the present invention in the main direction;

7 is a cross-sectional view showing a state in which the upper and lower reinforcing members of the truss-tech composite plate disposed on both sides of the cross beam by the upper and lower reinforcing bar connecting network in accordance with the method of the present invention in the direction of the reinforcement muscle.

* Explanation of symbols on the main parts of the drawings

10-Base Plate 12-Truss Girder

14-Lattice rebar member 16-Horizontal connection

18-Upper rebar member 20-Lower rebar member

22, 24-bend connection 26-cross beam

28-rebar 30-auxiliary rebar

32-crossbeam formwork 34-bottom reinforcing bar

36-Upper rebar network

The present invention relates to a truss composite deck plate consisting of a set of metal formwork and reinforcement when building a reinforced concrete building, in particular a simple and convenient way to the upper and lower reinforcing member of the truss composite deck plate disposed on both sides of the crossbeams of the building structure The present invention relates to a method of connecting a truss composite deck plate and a structure thereof.

In general, reinforced concrete structure is a composite structure that is used together with the concrete of compression and the reinforcement of tension material, such a reinforced concrete structure is usually laid a formwork, reinforcing the reinforcement on the formwork, then cast concrete to cure, and curing is completed When finished, the formwork is removed.

However, in the case of using the formwork as described above, the problem that many formwork is required in the process of installing and dismantling the formwork, and after many formwork is installed and cured, the formwork must be dismantled from the concrete structure, There were a number of problems, including the need for a lot of manpower during the installation and dismantling process.

In order to solve this problem, various methods have been proposed, and one of the methods serves as a formwork, and the steel plate embedded in the wall or the pillar of the building is fixedly attached to the metal plate forming the support structure for the floor of the building. The deck plate is made to achieve the, this deck plate is a representative building material widely used in the construction of slab floor of large buildings.

The truss composite deck plate is composed of a base plate 10 made of a metal plate, and a truss girder 12 fixed on the base plate 10, as shown in Figures 1 and 2, the truss girder 12 ) Is placed along the longitudinal direction so that the two lattice reinforcing members 14 form a triangle, and is fixed by welding by the horizontal connecting portion 16 at the bottom thereof, and one upper reinforcing member (at the top apex of the lattice reinforcing member 14). 18 is welded and the lower reinforcing member 20 is welded and fixed to both lattice members 14 between the upper reinforcing member 18 and the horizontal connecting portion 16, while the base plate 10 Bending connecting portions 22 and 24 are provided at both ends, and the deck plates are connected to each other by a necessary area through the bending connecting portions 22 and 24.

By the way, such a truss composite deck plate may be used by simply connecting the base plate 10 in accordance with the required area where the horizontal bottom surface is formed, but as shown in FIG. Reinforcing bar 28 is installed in the part 26 to ensure the internal strength of the cross beam, the reinforcing bar 28 of the cross beam is to be embedded together in the concrete to be placed on the deck plate to form an integral concrete structure Therefore, the deck plate can not be installed on the cross section 26.

That is, when the deck plate is installed on the cross beam portion 26, because the base plate 10 blocks the upper surface of the horizontal portion 26, concrete cannot be poured into the horizontal portion 26, The truss composite deck plate should not be installed above the cross beam portion 26.

Therefore, since the deck play connected to both sides of the cross beams 26 is installed, the truss girder 12 is not connected and is broken, and thus, conventionally, a short auxiliary to both of the truss girder 12 that is broken before placing concrete The method of connecting both truss girders 12 is used by inserting the rebar 30 and tying it with a wire.

By the way, when the secondary reinforcing bar 30 is sandwiched between the truss girder 12 of both deck plates cut by the portion where the cross beam is installed in this way, when connecting the both truss girder 12, each upper reinforcing member 18 And sub-reinforcement 30 to be fitted separately to fit the lower reinforcing member 20, there is a problem that the work is cumbersome and requires a lot of work maneuver because they have to tie each of the individual auxiliary reinforcing bars (30) one by one.

Accordingly, the present invention solves the problem of installing the conventional truss composite deck plate as described above in the connecting portion of the cross beam, it can be made more robust structurally, it is possible to reduce the labor maneuver to work conveniently An object of the present invention is to provide a connection method of a truss composite tech plate and a connection structure thereof.

The deck plate connection method of the present invention for achieving the above object is composed of a base plate made of a metal plate and a truss girder fixed on the base plate, the truss girder is formed so that the two lattice reinforcing members form a triangle It is disposed along the longitudinal direction and is welded and fixed by a horizontal connection at the bottom, and one upper reinforcing member is welded and fixed to the upper apex of the lattice reinforcing member, while on both lattice members between the upper reinforcing member and horizontal connection In a deck plate connection structure in which a lower reinforcing member is welded and fixed, and bending portions are provided at both ends of the base plate, the base plate is disposed so as to span both upper ends of the cross beam formwork forming a cross beam of a building structure. Become; While the lower reinforcing bar network is inserted between the lower reinforcing bar members of both deck plates, the lower reinforcing bar network is fixedly coupled to the lower reinforcing bar members of both deck plates using a wire or the like; The upper reinforcing bar network is fixedly coupled to the upper reinforcing bar members of both deck plates using a wire or the like while the upper reinforcing bar network is sandwiched between the upper reinforcing bar members of both deck plates.

By connecting the truss composite deck plate in this way, it is possible to connect a plurality of upper and lower reinforcing members at the same time can reduce the work maneuver to obtain an effect that can be worked conveniently.

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

The present invention relates to connecting the truss composite deck plate connected to the portion where the cross beam of the building structure is installed, while using the conventional general truss composite deck plate as it is, to the structure of the general truss composite deck plate described in the background art While the description thereof is used as it is, reference numerals in the drawings will be used as they are.

Figure 4 is a plan view of the lower reinforcing bar network is connected to connect the lower reinforcing member of the truss composite deck plate disposed on both sides of the cross beam of the building structure according to the method of the present invention, as shown in the figure, The base plate 10 of the deck plate is placed on both sides of the upper end of the cross beam formwork 32 forming the cross beam, and the lower reinforcing bar network 34 is sandwiched between the lower reinforcing member 20 of the deck plates. Next, the lower reinforcing bar network 34 has a structure in which the lower reinforcing member 20 of both deck plates is fixedly coupled using a wire or the like.

The lower reinforcing bar network 34 is disposed perpendicular to the two or more horizontal bars 34a and the horizontal bars 36 arranged at the same distance D1 as the lower bar members 20 of the deck plate. It consists of a plurality of longitudinal reinforcing bars (34b) fixed.

In addition, the interval d1 between the lower reinforcing member 20 of the portion connected to the neighboring deck plate is disposed wider than the interval D1 between the lower reinforcing member 20 provided on the same deck plate.

When the lower reinforcing bar network 34 having such a structure is fitted between the lower reinforcing bar members 20 of both deck plates, as shown in FIG. 4, a part of both ends of the lower reinforcing bar network 34 is the lower reinforcing bar of the deck plate. The member 20 is disposed to be superposed.

In this state, when the horizontal reinforcing bar 34a of the lower reinforcing bar network 34 is tied to the lower reinforcing bar member 20, the lower reinforcing bar members 20 of both deck plates are connected in the horizontal direction.

At this time, when tying the lower reinforcing bar network 34 and the horizontal reinforcing bar 34a, the general reinforcing bar bundles may be bundled using a wire, and the lower reinforcing bar 34 of the lower reinforcing bar network 34 and the bottom of the deck plate Rather than tying each one individually with the rebar member 20, only a few of the plurality of transverse reinforcing bars 34a are bundled with the lower reinforcing member 20 of the deck plate so that the entire lower reinforcing network 34 Both deck plates can be tightly connected.

Therefore, since the horizontal reinforcing bars 34a and the longitudinal reinforcing bars 34b constituting the lower reinforcing bar network 34 are connected to each other in advance, the plurality of horizontal reinforcing bars 34a are individually lower reinforcing member 20 Even if only a few of them are tied together, the lower reinforcing bar network 34 can firmly bind both deck plates.

After connecting the lower reinforcing member 20 of both deck plates as the lower reinforcing rod network 34, the upper reinforcing member 18 of both deck plates is connected as shown in FIG. The upper rebar member 18 is connected using the upper reinforcing bar network (36).

The upper reinforcing bar network 36 is formed by two or more transverse reinforcing bars (36a) are fixedly connected to the plurality of longitudinal reinforcing bars (36b) arranged at the same interval as the upper reinforcing member 18 disposed on the deck plate.

In addition, the interval d2 between the upper reinforcing member 20 of the portion connected to the neighboring deck plate is disposed wider than the interval D2 between the lower reinforcing member 20 provided on the same deck plate.

When the upper reinforcing bar network 36 having such a structure is fitted between the upper reinforcing bar members 18 of both deck plates, as shown in FIG. 4, a part of both ends of the upper reinforcing bar network 36 is formed on the upper part of the deck plate. It is arranged to be superimposed on the rebar member 18.

In such a state, when both ends of the upper reinforcing bar network 36 is bound by using the upper reinforcing member 18 of the deck plate and the wire, the upper reinforcing bar network 36 as in the lower reinforcing bar network 34 described above Since the horizontal reinforcement 36a and the longitudinal reinforcement 36b are firmly fixed to each other by welding or wire in advance, the upper reinforcing bar network 36 hardens the upper reinforcing member 18 of both deck plates. Will be bound together.

In addition, because the horizontal reinforcement (36a) and the longitudinal reinforcement (36b) of the upper reinforcing bar network 36 is firmly fixed in advance, only a few of the plurality of transverse reinforcement (36a) of the upper plate of the deck plate Even if it binds with the member 18, the whole can form a firm coupling structure.

Therefore, since the plurality of transverse reinforcing bars 36a constituting the upper reinforcing bar network 36 do not have to be individually bound to the upper reinforcing bar member 18, the number of working hours can be reduced.

After connecting the lower reinforcing bar network 34 and the upper reinforcing bar network 36 to the upper reinforcing member 18 and the lower reinforcing member 20 of both deck plates through the process as described above, as shown in Figure 5 Since the lower reinforcing bar 34 and the upper reinforcing bar 36 are installed between both deck plates, the upper reinforcing member 18 and the lower reinforcing member 20 of both deck plates are in a state of being formed, so that the formwork 32 At the top, the rebars are arranged in the same arrangement as the upper and lower rebar members 18 and 20 of the deck plate to form a rigid building structure.

Figure 6 shows the upper and lower reinforcing members of the truss-tech composite plate disposed on both sides of the cross-beam formwork by the upper and lower reinforcing bar network in accordance with the present invention in the main bar direction connected by the lower reinforcing bar network 34 and the upper reinforcing bar network 36 As described above, as described above, the truss girder 12 of both deck plates at the top of the cross formwork 32 is simply and firmly connected by the upper and lower reinforcing bar networks 36 and 34.

7 is a cross-sectional view showing a state in which the upper and lower reinforcing members (18, 20) of the truss-tech composite plate disposed on both sides of the cross beam by the upper and lower reinforcing bar connecting network (36,34) in accordance with the method of the present invention in As shown in the figure, using the upper and lower reinforcing bar network (36,34) according to the present invention using the upper and lower reinforcing bar network (36,34) consisting of reinforcing bar in the horizontal and vertical direction deck plates disposed on both sides of the crossbeam formwork Can be simply tightened.

As described above, a plurality of longitudinal rebars connecting the plurality of horizontal rebars 34a and the horizontal rebars 34a disposed at equal intervals with the lower rebar member 20 of the deck plate according to the present invention. Lower reinforcing bar network (34b) consisting of (34b), a plurality of horizontal reinforcing bars (36a) arranged at the same interval as the upper reinforcing member 18 of the deck plate and connecting the plurality of horizontal reinforcing bars (36b) By connecting the truss girder 12 of the left and right deck plates connected to the formwork 32 of the cross beam at a time by using the upper reinforcing bar network 36 consisting of two longitudinal bars 36b, the connection work can be simplified. In addition, since it is not necessary to connect the upper reinforcing member 18 and the lower reinforcing member 20 separately, it is possible to obtain an advantage such as to reduce the work maneuver. .

Claims (3)

A base plate 10 made of a metal plate, and a truss girder 12 fixed on the base plate 10, the truss girder 12 has a longitudinal direction so that the two lattice reinforcing members 14 in a triangle The upper reinforcing member 18 is welded and fixed by the horizontal connecting portion 16 at the lower end, and the upper reinforcing member 18 is fixed to the upper end of the lattice reinforcing member 14 while the upper reinforcing member 18 is fixed. The lower reinforcing member 20 is welded and fixed to both lattice members 14 between the horizontal connecting portion 16 and the horizontal connecting portion 16, and bent connecting portions 22 and 24 are provided at both ends of the base plate 10. In the connection structure of the deck plate, the plate 10 is arranged so as to span both the upper end of the cross beam formwork 32 forming the cross beam of the building structure, At least two horizontal bars 34a disposed at the same interval as the lower rebar member 20 and a plurality of longitudinal bars 34b disposed vertically and fixed to the horizontal bars 34a. The lower reinforcing bar network 34 is placed on the upper side of the cross beam, both sides thereof are placed on the upper part of the lower reinforcing member 20 and tied together by wires. An upper reinforcing bar network 36 formed by two or more transverse reinforcing bars 36a arranged at the same interval as the upper reinforcing member 18 and fixedly connected to the plurality of longitudinal reinforcing bars 36b is provided on the upper side of the cross beam. Both sides thereof are placed on top of the upper reinforcing member 18 and are configured to be tied together by wires. The spacing d1 of the horizontal rebars 34a and 36a of the lower reinforcing bar network 34 and the upper reinforcing bar network 36 positioned at the portion where the base plate is connected is wider than the spacing D1 of the other transverse rebars. Truss composite deck plate connection structure, characterized in that. delete delete

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