KR102048577B1 - Insulation Integrated Deck Plate - Google Patents

Abstract

The present invention relates to a deck plate integrated with an insulator, which comprises: a steel plate formed with a predetermined length and width, and having a plurality of trapezoid-shaped sliding grooves which are bent in multiple stages to be formed in the longitudinal direction of the steel plate; an insulator joined to a bottom surface of the steel plate; a truss girder comprising an upper rebar formed in a longitudinal direction, a lattice rebar fixed on both side surfaces of the upper rebar in zigzags to form a triangle shape, and a lower rebar fixed in the longitudinal direction of a lower portion of the lattice rebar for the lower rebar to be fixed to the sliding grooves of the steel plate; and a fixing block formed in a trapezoid shape to be slidably inserted into the sliding grooves and fixed to both side walls of the sliding grooves while the lower rebar of the truss girder is inserted into and fixed to the fixing block from an upper portion.

Description

Insulation Integrated Deck Plate

The present invention relates to a deck plate integrated heat insulation, and more particularly, the heat insulating material and the deck plate is integrally formed can be installed at the same time by the installation of the deck plate without the need to separately fix or install the heat insulating material on the deck plate when the slab construction. The present invention relates to a heat-insulated integral deck plate.

In general, the concrete structure is a composite structure that is used together with the concrete of the compression material and the reinforcing steel reinforcement can be obtained by repeating the process of reinforcing the reinforcement after laying the formwork, and then pouring concrete to dismantle the curing and formwork.

Such a concrete structure is a method for placing concrete. First, formwork is formed of plywood, lumber, or steel, and the reinforcing bar is placed on the formwork, and then concrete is poured and cured.

When curing of concrete is completed, the air is lengthened as the process of dismantling formwork takes place, and safety accidents often occur during the installation and disassembly of concrete and formwork, and also the insulation is deteriorated. There was a problem of costly construction.

In order to solve this problem, the truss girder integrated deck plate that can support the weight of the concrete itself generated during the curing process of concrete and concrete that is placed between beams that are constructed to build concrete structures Is proposed.

By the way, the truss girder integrated deck plate is usually provided with a truss girder at the top of the formwork having a predetermined width, the connector is provided at the bottom of the truss girder is coupled to the formwork is detachable.

The truss girder is composed of an upper reinforcing bar, a lower reinforcing bar and a lattice material, and a support is coupled to both ends.

However, when the truss girder integrated deck plate is used, after the deck plate is installed between beams or beams, concrete is poured and cured, and then, after dismantling the formwork, a separate heat insulator is used to generate additional processes. Due to the increase in construction costs, there was a problem such as longer air.

In addition, the slab construction method using the deck plate consists of a metal plate such as a truss girder and a galvanized steel sheet, the deck plate itself consists of a base plate to which the truss girder is fixed. However, when the heat insulating material is to be installed on the base plate, a separate operation such as a process of attaching the heat insulating material using an adhesive is required, and there is a problem such that the heat insulating performance is insufficient due to the decrease in the adhesiveness of the heat insulating material.

For example, Patent Document 1 discloses an 'insulation deck plate'.

Insulation deck plate according to the following Patent Document 1 is provided with a plurality of connectors at the bottom of the truss girder, the deck plate is formed so that the formwork is detachably coupled to the plurality of connectors, the truss girder is centered on the upper reinforcement The lattice material bent in a wave shape on both sides is welded to each other, and the lower reinforcing bar is respectively welded to the lower end of the lattice material, and is formed in a triangular shape. Is configured to be connected, separated, the top of the formwork between the truss girder and the formwork is provided with a heat insulating material.

The formwork and the heat insulating material are coupled to the truss girder by a plurality of connectors to form a heat insulation deck plate, the formwork and heat insulating material of the heat insulation deck plate corresponding to the plurality of connectors provided in the lower portion of the truss girder Bolt holes are formed respectively, and a washer is provided between the connection body of the connector and the heat insulator, and a banding cap is provided on an upper portion of the connection body of some connectors of the plurality of connectors provided on both lower lower bars of the truss girder.

The connecting bolt is forcibly inserted while wrapping the lower reinforcing bar of the truss girder, and the connection bolt passes through the bolt hole formed in the formwork, the bolt hole formed in the heat insulating material, and the bolt hole formed in the washer to the upper portion, and the connection body. It is configured to be screwed to the female threaded hole formed in the lower portion of the heat insulating material when the concrete is poured and cured when dismantling the connecting bolt, the formwork is configured to be separated from the heat insulating material.

However, the deck plate according to the prior art is inconvenient to be fixed by fixing means such as bolts in a state in which the heat insulating material is placed on the bottom of the deck plate, the deck plate is made of a complicated shape, which makes the production cost of the deck plate a lot Since the insulation is cut and installed to a certain length and width, a joint area is generated, which lowers the insulation performance of the insulation and increases the construction cost such as the manpower and cost due to the assembly of the deck plate and the insulation. There was a problem that the construction period becomes longer.

Republic of Korea Patent Registration No. 10-0993879 (registered November 5, 2010) Korea Patent Registration No. 10-1125549 (registered March 5, 2012)

SUMMARY OF THE INVENTION An object of the present invention is to solve the problems as described above, and to provide a heat insulating material-integrated deck plate in which a heat insulating material having a predetermined thickness on the bottom of the steel sheet together with the truss girder on the top of the steel sheet is formed by foaming or bonding. .

Another object of the present invention is to provide a heat insulation integral deck plate that is firmly coupled so that the steel sheet and the heat insulating material are not separated from each other.

In order to achieve the object as described above, the insulator integral deck plate according to the present invention is made of a predetermined length and width, the steel sheet formed in the longitudinal direction a plurality of sliding grooves bent in multiple stages trapezoidal; Insulation material bonded to the bottom of the steel sheet; An upper reinforcement formed in a longitudinal direction, a lattice reinforcement fixed zigzag to form a triangle on both sides of the upper reinforcement, the lower reinforcement in the longitudinal direction fixed to the lower portion of the lattice reinforcement the lower reinforcement in the sliding groove of the steel sheet Set truss girder; And a trapezoidal shape so as to be slidably fitted into the sliding groove, and a fixing block fixed to both side walls of the sliding groove at the same time the bottom reinforcing bar of the truss girder is fitted and fixed from the top.

The fixed block is formed in a trapezoidal shape on the front, the working space is formed inside, the center is formed with a fitting groove which is open in the upper direction to communicate with the working space, the wedge outlet formed in the side; The middle part is rotatably fixed to both sides of the working space of the body, the lower end is configured to be in contact with the lower reinforcement in the insertion groove position in a state rotatably connected to each other, the inner surface is in the open state the lower reinforcement Two gripping links configured to hold the lower reinforcing bars to be gripped while being pushed down to hold the lower reinforcing bars; And an operation link connected to an intermediate lower portion of the two gripping links, and arranged to be drawn out through the wedge-out holes, and when the two gripping links rotate, the two gripping links move forwards and are fixed to the sidewall of the sliding groove. It can include two wedges.

Rotating shafts may be formed at the lower connection portions of the gripping links, and long holes may be formed to accommodate the rotating shafts so that the lower shafts may rotate in contact with the lower rebars.

The inner wall of the body may be provided with a stopper to protrude when the gripping link passes and to fix the gripping link without disturbing the rotation of the gripping link.

The gripping surface and the wedge may be formed with a plurality of concave-convex pointed end portion to have a fixing force.

As described above, according to the insulator integrated deck plate according to the present invention, the heat insulating material is integrally bonded to the deck plate and is supported by a trapezoidal sliding groove, so that the separation can be prevented even if the heat insulating material is not installed with a bolt or the like. This will be.

In addition, instead of fixing the truss girder to the steel sheet through welding or riveting, the manufacturing process is very convenient because the truss girder can be firmly fixed by inserting the fixing block into the sliding groove and then pressing down the truss girder from the top. .

1 is a perspective view of a heat insulation material integrated deck plate according to the present invention,
Figure 2 and Figure 3 is an explanatory view of the fixed block operation of the insulation plate integrated deck plate according to the present invention.
Figure 4 is a cross-sectional view of the installation state of the insulation plate integrated deck plate according to the present invention.
Figure 5 is an illustration of a tool for fixing the truss girder of the insulated deck plate according to the invention.

Hereinafter will be described in detail with reference to the accompanying drawings and the embodiment of the present invention integrated deck plate.

1 is a perspective view of a heat insulation integrated deck plate according to the present invention, Figures 2 and 3 is an explanatory view of the fixed block operation of the heat insulation integrated deck plate according to the present invention, Figure 4 is an installation of a heat insulation integrated deck plate according to the present invention It is a state sectional drawing, and FIG. 5 is an illustration of the tool for fixing the truss girder of the heat insulation integrated deck plate which concerns on this invention.

The heat insulation material integrated deck plate which concerns on this invention has the characteristic that the truss girder 10, the steel plate 20, and the heat insulation material 30 were integrally formed.

Specifically, the steel sheet 20 is formed of a plurality of sliding grooves 21 made of a predetermined length and width and bent in multiple steps to form a trapezoid in the longitudinal direction, the heat insulating material 30 is formed on the bottom of the steel sheet 20 It is integrally joined and supported by a plurality of sliding grooves 21 of the joining surface and the trapezoid so as not to be separated.

The truss girder 10 has a longitudinal direction in the lower portion of the upper reinforcement 11 formed in the longitudinal direction, the lattice reinforcement 12 fixed in a zigzag to form a triangular shape on both sides of the upper reinforcement 11, the lattice reinforcement 12 It consists of a lower reinforcement 13 fixed to the lower reinforcement 13 is configured to be fixed to the sliding groove 21 of the steel plate (20).

In addition, the fixed block 40 is made of a trapezoid so as to be slidably fitted in the sliding groove 21, the lower reinforcing bar 13 of the truss girder 10 is fitted from the top and fixed to both side walls of the sliding groove 21 at the same time. ) Is further provided.

The fixed block 40 has a body 41 formed to be slid in the sliding groove 21 and two gripping links 42 rotatably provided in the body 41 to grip the lower reinforcing bars 13. And two wedges 43 connected to the gripping links 42 and drawn out of the body 41 according to the rotation of the gripping links 42 to fix the fixing block 40 to both side walls of the sliding groove 21. )

Specifically, the body 41 is made of a trapezoidal shape and size similar to the sliding groove 21 on the front face, the operating space 41a is formed inside, and open in the upper direction to communicate with the operating space 41a in the center. The fitted fitting groove 41b is formed, and the wedge drawing hole 41c is formed laterally.

The two gripping links 42 are respectively rotatably fixed to both sides of the operating space 41a of the body 41, and the two gripping links 42 lower ends of the fitting grooves 41b are rotatably connected to each other. The lower reinforcing bar 13 is configured to be in contact with the lower reinforcing bar 13, and the two holding links 42 inner surface parts are gripped when the lower reinforcing bar 13 is pushed down in the open state to hold the lower reinforcing bar 13. The ground 42a is formed.

At this time, the rotary shaft 42b is formed at the lower connection portion of the gripping link 42, and the long hole 42c accommodating the rotary shaft 42b to be rotated downward in contact with the lower rebar 13, respectively. Is formed.

In addition, the inner wall of the body 41 is provided with stoppers 41d for protruding when the gripping link 42 passes and fixing the gripping link 42 without hindering rotation of the gripping link 42. Although not shown in detail, the stopper 41d may be formed of an elastic piece or the like.

The two wedges 43 are connected to the lower middle of the two gripping links 42 through the operation link 44, and are arranged to be drawn out through the wedge outlet holes 41c, so that the two gripping links 42 are respectively. When rotated, the force is transmitted to each other in the outward direction is configured to be embedded in the side wall of the sliding groove (21).

In addition, the gripping surface 42a and the wedge 43 are preferably formed with a plurality of concave-convex points having a sharp tip.

Then, the pressing tool 50 for pushing down the truss girder 10 is a semi-circular pressing portion 51 in contact with the lower reinforcing bar 13, the operating shaft 52 is fixed integrally to the pressing portion 51, the operation What is necessary is just to comprise the handle 53 provided in the upper part of the shaft 52.

Insulating material integrated deck plate according to the present invention configured as described above has the function as follows.

First, when the heat insulator 30 is bonded to the steel plate 20, the steel plate 20 is put into the mold and the heat insulator 30 can be integrally bonded to the steel plate 20 through urethane foam or the like below. The lower surface insulating material 30 is supported by the joint surface with the steel plate 20 and the trapezoidal sliding groove 21, so that it is possible to firmly secure without being separated from the steel plate 20 without the fixing means such as bolts.

When the truss girder 10 is fixed to the steel plate 20, the fixing block 40 is inserted into the sliding groove 21 of the steel plate 20 so that the truss girder 10 is positioned in some places, and the lower reinforcement 13 of the truss girder 10 is positioned. After pressing the truss girder 10 on the lower reinforcing bar 13 around the fixing block 40 by pressing the fitting groove 41b of the fixing block 40 located at some places, the pressing tool 50 is pressed. When the part 51 is positioned and the handle 53 is pressed down, the lower reinforcing bar 13 is inserted into the fitting groove 41b and the two gripping links 42 are connected to each other. 42 is retracted while being rotated about a portion rotatably connected to the body 41, respectively.

On the inner surface of the two gripping links 42, gripping surfaces 42a having irregularities are formed, respectively, and a stopper 42c is provided on the body so that the gripping links 42 are rotated and the gripping surfaces 42a are lowered. While wrapping the reinforcing bar 13, the lower reinforcing bar 13 is firmly gripped through the uneven part of the gripping surface 42a, and when the two gripping links 42 rotate, the stopper 41d protrudes and the two grippings are carried out. The position of the link 42 is fixed in the closed state.

At this time, a long hole 42c is formed at the lower connection portion of the two gripping links 42 so as not to interfere with the rotation of the two gripping links 42.

In addition, when the two gripping links 42 are pressed and rotated by the lower reinforcing bars 13, the operating links 44 connected to the respective gripping links 42 are pushed outwards, and the two wedges connected to the operating links 44 43 is pushed in the outer direction of the body 41 can protrude to the outside of the body 41 through the wedge outlet hole 41c, the wedge 43 is a pointed end is formed with a sharp wedge 43 The fixing block 40 may be firmly fixed to both side walls of the sliding groove 21 while protruding to the outside of the body 41 and penetrating both sides of the sliding groove 21.

That is, according to the present invention, the heat insulating material 30 can be firmly fixed to the steel sheet 20 without a separate fixing means, the fixing block 40 without welding or riveting the truss girder 10 to the steel sheet 20 By using the truss girder 10 can be easily fixed to the steel sheet 20, the installation work of the deck plate can be made very easily.

As mentioned above, although the invention made by the present inventor was demonstrated concretely according to the said Example, this invention is not limited to the said Example and can be variously changed in the range which does not deviate from the summary.

10: Truss girder 11: Upper reinforcement
12: lattice reinforcing bar 13: lower reinforcing bar
20: steel plate 21: sliding groove
30: insulation 40: fixed block
41: body 41a: working space
41b: fitting groove 41c: wedge drawer
41d: Stopper 42: Gripping Link
42a: Gripping surface 42b: Rotating shaft
42c: Long Hole 43: Wedge
44: operation link 50: pusher
51: pressing part 52: operating shaft
53: handle

Claims (5)

Steel plate 20 made of a predetermined length and width, the plurality of sliding grooves 21 are bent in a multi-stage trapezoidal shape in the longitudinal direction;
A heat insulating material 30 bonded to the bottom of the steel plate 20;
The upper reinforcement 11 formed in the longitudinal direction, the lattice reinforcement 12 is fixed in a zigzag to form a triangular shape on both sides of the upper reinforcement 11, the lower reinforcement fixed in the longitudinal direction to the lower portion of the lattice reinforcement 12 A truss girder (10), wherein the lower reinforcing bar (13) is fixed to the sliding groove (21) of the steel plate (20); And
It is made of a trapezoidal to be slidably fitted in the sliding groove 21, the fixed block fixed to both side walls of the sliding groove 21 at the same time the lower reinforcing bar 13 of the truss girder 10 is fitted and fixed from the top. Including 40,
The fixed block 40,
It is formed in a trapezoidal shape on the front side, and an operating space 41a is formed therein, and a fitting groove 41b which is opened upwardly to communicate with the operating space 41a is formed in the center thereof, and a wedge-out hole 41c is formed laterally. A body 41 formed with;
The middle part is rotatably fixed to both sides of the working space 41a of the body 41, and the lower end part is rotatably connected to each other so that the lower reinforcing bar 13 can be contacted at the fitting groove 41b. When the lower reinforcing bar 13 is pushed down in an open state, the inner surface portion is formed to hold the lower rebar 13 so as to grip the lower reinforcing element 13 so as to fix the lower reinforcing bar 13. Gripping links 42; And
It is arranged to be connected through the operation link 44 in the middle lower portion of the two gripping links (42), and to be drawn out through the wedge outlet hole (41c) when the two gripping links (42) rotates, respectively Each of the two wedges 43 is fixed to the side wall of the sliding groove 21 to move forward,
The inner wall of the body 41 is provided with a stopper (41d) for protruding when the gripping link 42 passes through the gripping link 42 does not interfere with the rotation of the gripping link (42) to fix the gripping link (42) Insulation integrated deck plate.
delete The method of claim 1,
A rotary shaft 42b is formed at the lower connection portion of the gripping link 42, and a long hole 42c accommodating the rotary shaft 42b is configured to rotate downward when contacted with the lower rebar 13. Insulation integrated deck plate, characterized in that each formed.
delete The method of claim 1,
The gripping surface (42a) and the wedge (43) insulated deck plate, characterized in that a plurality of concave-convex with a sharp tip is formed to have a fixing force.

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