KR20150090659A - A deck structure - Google Patents

Abstract

The present invention relates to a deck structure for forming a concrete floor of a building comprising: a deck plate formed in the form of a trapezoid whose lower part is opened, having an inverted trapezoidal groove whose upper part is opened, and wherein two unit bodies consisting of an upper plate and a lateral plate are to be units; a reinforcement frame inserted inside the inverted trapezoidal groove, placed over an edge wherein the upper plate and the lateral plate are in contact with each other, and wherein a lower reinforcing bar is arranged at a distance away from a lower plate; a distributing bar arranged to be perpendicular to an upper reinforcing bar of the reinforcement frame; and a concrete bottom layer placed on the deck plate and hardened. The present invention has effects of ensuring the good quality by stably maintaining a position inside concrete of a reinforcement frame, shortening the construction period by easily performing operation, and reducing construction costs by reducing used personnel by simply installing the reinforcement frame inside the trapezoidal groove of the deck plate when a concrete floor of a building is constructed.

Description

A deck structure for forming a concrete floor of a building,

The present invention relates to a deck structure for forming a concrete floor of a building, and more specifically, a reinforcing frame can be easily installed to improve the rigidity of the reinforcing bars at the time of construction of a concrete floor of a building, It is possible to simplify the installation of the reinforcing frame in the reverse trapezoidal grooves of the deck plate such as the deck plate and the U deck, To a deck structure for a concrete floor forming structure of a building capable of shortening the construction period and shortening of air and securing a good quality of the position of the reinforcing frame in the concrete.

Generally, the bottom slab structure of concrete structures is a composite structure that uses concrete, which is a compression material, and reinforcing bars, which are a tensile material, and is the main type of floor structure.

The most common method for constructing the floor slab of such a concrete structure is to install the concrete to form the bottom surface of the concrete, to reinforce the concrete, and then to inject the concrete, and the curing process is completed.

This method requires a considerable period of construction time due to the difficulty due to the construction and disassembly of the formwork, the requirement of separate reinforcement work, the separate finishing due to the surface defects of the structure, and the like, Economic and environmental pollution.

Therefore, it is known that a method of not using a mold, that is, a method of using a structure used for forming a floor of a concrete as a part of a concrete building, is known as a method for improving the problem of using the form.

In this moldless method, a reinforced concrete slab was used or a deck plate improved to a greater extent.

However, the construction method using the PC slab has a disadvantage of not only a heavy structure but also a thickness of the slab, which lowers the layer height. Since the PC slab itself is a heavy structure, And the logistics cost to be stored is enormous. In addition, a lot of unnecessary loading space is occupied in the field. Also, it is difficult to cope with the changed parts such as the change of the drawings, and since the heavy structure is a heavy structure, There has been an unreasonable problem such as a safety problem and a long construction period as a whole.

To solve these problems, a deck plate for placing on a steel frame has been widely used. However, in the case of a deck plate, the distance between the two horizontal beams is within 3 m when the deck is a bone deck, , It is used within 4 m, but when it is longer than this, the strength is weak and it can not be used.

A conventional building deck plate having other types of concave and convex grooves is formed by including an upper plate 11, a side plate 12, a lower plate 13 and connecting means 15a and 15b as shown in Fig. And two unit bodies each composed of the top plate 11 and the side plate 12 constitute a unit unit. The lower plate 13 is bent at the lower end of the side plate 12 and is formed in the center of the unit parallel to the upper plate 11 and the connecting means 15a and 15b are formed at both ends of the unit.

Further, the connecting means 15a and 15b formed at both ends of the unit are formed of the 'r' shaped 15a which is laid down laterally and the 'C' shaped opening 15b which is opened upward, The width in the engaged state becomes the same width as the width of the lower plate 13 while being 'C' shaped by 90 ° clockwise. As shown in Fig. 1, the trapezoidal groove 16 of the deck plate 10 is horizontally disposed on the upper portion of the deck plate 10 and spaced apart from the deck plate 10 by a spacer 19 Shaped ring 21 is inserted on the transverse reinforcement 20 and a lower reinforcing bar 22 is disposed on the lower portion of the S-shaped ring 21 to form the bottom surface 13 of the deck plate 10, And the upper reinforcing bars 23 are disposed horizontally at right angles to the transverse reinforcing bars 20 to form a steel frame structure. When the steel frame structure is completed, a deck plate 10) in order to cure the concrete bottom layer (not shown).

In such a case, not only the time and effort required for forming the steel structure take much time, but also the transverse reinforcing bar 20 is touched by the movement of the transverse reinforcing bar 20, so that the spacer 19 is released, A large amount of manpower is required to install the steel frame structure 17 on the deck plate 10, thereby increasing the risk of safety accidents. In addition, the construction cost is increased, and the construction time is increased There is a problem that the entire air is lengthened.

Korean Patent No. 10-1008414, Korean Patent No. 10-0654353, Korean Patent Laid-open No. 10-2011-0107945

It is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide a reinforced concrete frame structure for a building, A deck structure for a concrete floor forming structure of a building capable of shortening the construction time and shortening the air and making it possible to maintain a stable position in the concrete of the reinforced concrete frame to ensure a good quality, to provide a

It is an object of the present invention to provide an apparatus and a method for manufacturing a semiconductor device, which comprises a top plate, a side plate, a bottom plate and connecting means, formed into a trapezoidal shape having an open bottom as a whole, A deck plate having two unit bodies constituting unit units; a reinforcing frame inserted in the inverted trapezoidal groove and extending over an edge where the upper plate and the side plate meet and the lower reinforcing bars spaced apart from the lower plate; And a concrete floor layer which is placed on the deck plate and hardened. The deck structure for concrete floor forming according to the present invention includes:

The deck structure for forming a concrete floor of a building according to the present invention is formed into a trapezoidal shape with an opened lower portion and an inverted trapezoidal groove with an opened upper portion and two unit bodies each composed of an upper plate and a side plate are unit units A deck plate; a reinforcing frame inserted in the inverted trapezoidal groove and covering an edge where the upper plate and the side plate meet, the lower reinforcing steel being spaced apart from the lower plate; a reinforcing frame orthogonally disposed on the upper reinforcing steel of the reinforcing frame; It is composed of a concrete floor layer placed on the deck plate and hardened, so that it is possible to simplify the installation of the reinforcing frame in the trapezoidal groove of the deck plate at the time of construction of the concrete floor of the building, So that the construction period is shortened and the air can be shortened, There is an excellent effect that it is possible to stabilize the position of the reinforcing frame in the concrete and secure a good quality.

1 is a schematic longitudinal sectional view in which a conventional building deck plate and a reinforcing frame are disposed;
2 is a schematic longitudinal sectional view in which a deck plate and a reinforcing frame are disposed according to a first embodiment of the present invention;
3 is a schematic longitudinal sectional view of a deck structure for concrete floor forming of a building according to a first embodiment of the present invention
4A and 4B are a perspective view of a reinforced concrete frame used for a concrete deck structure for a building according to a first embodiment of the present invention and a perspective view of another embodiment of a reinforced concrete frame for reinforcement.
5 is a view showing an embodiment of various forms of a reinforcing frame
6 is a front view of a steel frame used in a deck structure for forming a concrete floor of a building according to a second embodiment of the present invention

2 and 3, the deck structure A for concrete flooring of a building according to the first embodiment of the present invention is constructed by a top plate 21, a side plate 22, a bottom plate 23, A transverse trapezoidal groove 25 formed in the shape of a trapezoid with the lower part thereof opened and formed with the connecting means 24 and having an open upper part is formed and a unit consisting of the upper plate 21 and the side plate 22 A deck plate 2 having two bodies as a unit unit and a lower reinforcing bar 31 inserted in the reverse trapezoidal groove 25 and covering an edge 26 where the upper plate 21 and the side plate 22 meet, A reinforcing frame 3 disposed so as to be spaced apart from the lower plate 23 and a reinforcing rope 4 orthogonally disposed on the upper reinforcing bar 32 of the reinforcing frame 3 and the deck plate 2 And a concrete bottom layer 5 to be cured.

The reinforcing frame 3 is composed of one lower reinforcing bar 31 and two upper reinforcing bars 32 arranged in an inverted triangle and is composed of a V-shaped fixed wire (not shown) for fixing the upper and lower reinforcing bars 31, 33 are spaced apart and welded on the upper and lower reinforcing bars 31, 32. The deploying angle? Of the fixing wire 33 is extended to the V-shape so that the lower reinforcing bar 31 covers the lower plate 23 while covering the corner 26 where the upper plate 21 and the side plate 22 meet. It is natural that the angle of deployment θ varies depending on the distance between the opposing edges 26 and the depth of the bottom plate 23, As the distance between the opposing edges 26 of the deck plate 2 and the depth of the lower plate 23 is set to be such that the lower reinforcing bars 31 are spaced about 2 cm apart from the lower plate 23, The fixing wire 33 is bent and the upper and lower reinforcing bars 31 and 32 are fixed, the reinforcing frame 3 can be easily manufactured.

In addition, as shown in FIG. 4B, when reinforcing the strength of the reinforcing bars is required, it is also possible that the upper and lower reinforcing bars 31 and 32 are all fixed to two.

As described above, in the present embodiment, a reinforcing frame 3 having a development angle bent at a distance of about 2 cm from the lower plate 23 of the deck plate 2 is manufactured, and the reinforcing frame 3 is then placed on a deck plate 2 of the deck plate 2 is placed on the diagonal grooves 25 so that the reinforcing frame 3 can be stuck on the edges 26 on both sides of the deck plate 2 without the support of the conventional spacer 18, ), The fixing operation of the reinforcing frame 3 can be carried out very easily and quickly.

Although the distance between the lower reinforcing bar 31 of the reinforcing frame 3 and the lower plate 23 of the deck plate 2 is 2 cm in the present embodiment, the present invention is not limited thereto. It is natural that the distance to be increased or decreased according to the strength.

When the reinforcing rope 4 is fixed orthogonally on the upper reinforcing bar 32 of the installed reinforcing frame 3 in this manner, the reinforcing frame 3 and the reinforcing ropes 4 can be easily and quickly installed on the upper portion of the deck plate 2, The concrete is laid on the deck plate 2 on which the reinforcing frame 3 and the reinforcing rope 4 are installed and the concrete is hardened to harden the concrete floor layer 5. When the concrete floor layer 5 is cured, The concrete floor structure of the present invention is completed.

'형 철근골조(3), '

'형 철근골조(3)와 같은 다양한 형상으로 변형될 수가 있음은 물론이라고 할 것이다. As shown in FIG. 5, depending on the shape of the fixed wire 33, the shape of the reinforcing frame 3 may be variously shaped depending on the shape of each structure to be built. 3), U-shaped reinforced concrete frame (3), '

'Type steel frame (3),'

'Type steel frame 3' as shown in FIG.

5 (c), the wings 33a are formed horizontally at both ends of the fixed wire 33 because the width a of the spaced-apart spaced spaces is smaller than the depth b of the fixed wire 33 The wings 33a are formed in order to maintain the interval of the upper reinforcing bars 33. [

The reason why the downwardly bent foot 33b is formed at the end of the vane 33a is that the interval c between the upper and lower reinforcing bars 31 and 32 is very important for forming the strength of the slab, A bending foot is formed to prevent the wing 33a from being sagged when the length of the reinforcing bar 33a becomes long and the bending leg 33b is also required even when the concrete is thick or the amount of the reinforcing bar is large.

As shown in Fig. 6 (a), a cross bar 35 is welded and fixed across the 'V' groove in the middle of the fixed wire 33 of the reinforcing frame 3, and the cross bar 35 is inclined It is possible to prevent the deformation of the deployment angle by fixing the deployment angle? Of the fixed wire 33 and to increase the installation height of the upper reinforcing bar 32, It is possible to adjust the installation height of the upper reinforcing bar 32 conveniently on the top plate 21 of the upper reinforcing bar 2.

'한 형태나 또는 역삼각형의 형태와 같이 가로대(35)를 연속적으로 이어지게 상부에 설치하여, 고정철사(33)의 전개각도(θ)를 고정시켜서 전개각도의 변형을 방지하는 것은 물론이고, 상부철근(32)의 설치높이를 높게하는 것도 가능하다고 할 것이다.Further, as shown in Fig. 6 (b), the shape of the fixed wire 33 is referred to as'

The cross bar 35 may be provided on the upper portion so as to continuously connect the cross bars 35 as in the form of an inverted triangle or an inverted triangle so as to prevent the deformation of the deployment angle by fixing the deployment angle [ The height of the reinforcing bars 32 can be increased.

'하고 상부철근(32)을 1개만 사용하고 하부철근(31)도 1개만 사용한 구조도 사용할 수도 있다고 할 것이다.
6 (c), when the depth from the upper plate 21 to the lower plate 23 is small and only one upper reinforcing bar 32 is provided, the shape of the fixed wire 33 '

And the structure using only one lower reinforcing bar 31 and one upper reinforcing bar 32 may be used.

As described above, the deck structure for forming a concrete floor of a building according to the present invention is constructed such that, when the reinforcing frame 3 is installed at the upper part of the deck plate 2, Since the lower reinforcing bars 31 of the reinforcing frame 3 are disposed at a proper distance from the lower plate 23 so that the installation of the reinforcing frame 3 is greatly facilitated and there is no fear of deformation of the reinforcing frame 3 It is possible to install the reinforcing frame 3 on the deck plate 2 very quickly so that the installation force of the reinforcing frame 3 is remarkably reduced and labor productivity is improved and the work is rapidly progressed, It is possible to reduce the construction time of the reinforced concrete frame so that the construction cost can be reduced and the position maintenance of the reinforced concrete frame in the concrete can be stabilized and a satisfactory quality can be secured.

The deck structure for forming a concrete floor of a building according to the present invention may be said to be an industrial applicability since it is possible to repeatedly construct the same product in a general construction site.

2. Deck plate 3. Reinforced frame
4. Outline Root 5. Floor

Claims (6)

A reverse trapezoidal groove 25 formed with a top plate 21, a side plate 22, a bottom plate 23, and a connecting means 24 and formed as a trapezoidal shape with an open bottom as a whole, A deck structure (A) for a concrete floor forming of a building provided with a deck plate (2)
The concrete floor structure A of the building is inserted in the reverse trapezoidal groove 25 of the deck plate 2 and extends over an edge 26 where the upper plate 21 and the side plate 22 meet, (31) comprises a reinforcing frame (3) arranged so as to be spaced apart from the lower plate (23)
An expansion rope (4) orthogonally arranged to the upper reinforcing bar (32) of the reinforcing frame (3)
And a concrete bottom layer (5) placed on the deck plate (2) and cured. ≪ RTI ID = 0.0 > 8. < / RTI >
The method according to claim 1,
The reinforcing frame 3 is composed of a lower reinforcing bar 31 and an upper reinforcing bar 32. The upper reinforcing bars 31 and 32 are fixed to the upper reinforcing bars 31, Is formed to be welded on the reinforcing bars (31) (32)
The deploying angle? Of the fixed wire 33 is set so that the lower reinforcing bar 31 is spaced apart from the lower plate 23 while covering the corner 26 where the upper plate 21 and the side plate 22 meet each other Wherein the deck structure has an angle of 180 deg.
3. The method according to claim 1 or 2,
The reinforcing frame 3 includes an inverted triangular reinforcing frame 3, a U-shaped reinforcing frame 3,

'Type steel frame (3),'

≪ RTI ID = 0.0 > (3). ≪ / RTI >
The method according to claim 2 or 3,
Wherein the fixed wire (33) of the reinforcing frame (3) is formed with wings (33a) at both ends thereof horizontally.
The method according to claim 2 or 3,
Wherein the fixing wire (33) of the reinforcing frame (3) is formed with a downwardly bent foot (33b) at an end portion where both ends are horizontally formed with a wing (33a).
The method according to claim 1,
The reinforcing frame 3 is composed of a lower reinforcing bar 31 and an upper reinforcing bar 32. The upper reinforcing bars 31 and 32 are fixed to the upper reinforcing bars 31, Is formed to be welded on the reinforcing bars (31) (32)
And a cross bar (35) connecting horizontally extended fixed wires (33) is provided at the middle or upper part of the fixed wire (33).

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