KR101165590B1 - Double reinforcement construction structure of ferroconcrete - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a concrete construction structure of a concrete structure.

The present invention is characterized in that a horizontal portion formed on one side from an upper end of a first vertical portion and a second vertical portion formed in parallel with the first vertical portion from an end of the horizontal portion are formed, The upper fixed end is formed with the lower fixed end opposed to the horizontal fixed portion and the lower fixed end of the other coupling member is coupled to the horizontal portion. According to the present invention, So that it can be joined without a fastening part of the fastener.

Concrete, Reinforcement, Reinforcement

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a double reinforcement construction structure of a ferroconcrete,

In order to construct a reinforced concrete structure used for constructing various buildings with excellent durability by using a concrete which is a compression material and a reinforcing material as a tensile material, a concrete which is filled with a fluidity concrete is injected into a steel frame laid in the formwork, The present invention relates to a reinforcement construction structure of a concrete structure in which a rigid reinforcement structure can be constructed without using an accessory material for reinforcing reinforcement, and the form and the reinforcement are integrated in the reinforcement construction structure of the structure.

Generally, the concrete structure requires the formwork in the construction process, and the reinforcing bars embedded in the concrete are arranged with proper spacing, and the laying work is completed using separate connecting parts.

Formwork consists of a combination of multiple sheathing boards to maintain the shape and dimensions of the concrete during curing and to prevent leakage of water until the concrete is hardened and to protect it from the effects of external soil or outside air It plays a role to form the wall and the ceiling slab. It is a scraper which is disassembled after the concrete hardens.

The concrete structure should be constructed of a solid reinforced concrete structure before the formwork is constructed so that it can withstand the load and dynamic load of the concrete and exhibit sufficient strength.

The formwork for forming the wall is constructed by assembling the base side plate formwork and the formwork of the grounding form, fixing the base plate and the reinforcing bars of the supporting beam as well as the columnar foundation to pour the foundation plate concrete, In case of ceiling slab, reinforcement is placed and concrete is laid after making the formwork supported by the horizontal support by horizontal reinforcement.

These molds are dismantled at the designated time for construction schedule and reuse.

Conventional methods for constructing walls, beams, and ceiling slabs using reinforced concrete as described above require not only a formwork constructed of plywood, slabs, etc. and a supporting column supporting the form to form the outer surface of the concrete, In order to perform reinforcement work, it is necessary to place reinforcing bars which are placed in a direction orthogonal to the reinforcing bars arranged in one direction and then to be connected to the formwork to be removed after the concrete is poured. Then, When concrete is hardened after curing process, it was carried out as a process of removing formwork and a pillar.

However, in the conventional method, it takes a lot of manpower and time to set up and dismantle the formwork and the pile, and to remove the defective surface of the concrete structure after the form is dismantled. And thus the construction cost is increased.

In addition, the used formwork should be able to be used again after dismantling. In many cases, it is damaged and can not be used in the process of dismantling or transferring for repeated use. Therefore, the construction waste is mass- .

The use of the formwork of the panel structure that is integrated with the reinforced concrete and the poured concrete instead of the conventional general form which is made of veneer plywood or euro form eliminates the need to remove the form after curing the concrete, . For this purpose, various structures including a truss girder integral deck panel formwork structure for a reinforced concrete slab are known as an integrated structure of a form and a reinforcing bar. However, even if the form is formed integrally with the reinforcing bar, these connecting structures should be used as a separate accessory to connect the form to the reinforcing bars or to connect the reinforcing bars to the reinforcing bars.

The present invention does not require a separate accessory material for connecting the formwork and the reinforcing bar as in the past, and does not use the formwork to be disassembled after the construction in the construction process of the concrete structure, but is used as a substitute for the reinforcement in the panel used as a substitute for the formwork The panel and the joining member are integrated with the concrete structure by using the joining member, and the joining member can be constructed easily and firmly.

In order to achieve the above object, a concrete construction structure of a concrete structure includes a horizontal part formed on one side from an upper end of a first vertical part, and a second vertical part formed in parallel with the first vertical part from an end of the horizontal part, The lower vertical end portion of the first vertical portion and the lower vertical end portion of the second vertical portion may be opposed to each other and the upper fixed end may be coupled to the lower fixed end of the other coupling member.

The lower fixed end of the engaging member is formed with protrusions opposed to the fixing protrusions, which are formed by cutting grooves formed at both sides of the space where the first vertical portion and the lower portion of the second vertical portion are opened.

The upper fixed end of the engaging member is a protrusion that protrudes horizontally from a boundary portion between the first vertical portion and the second vertical portion.

The upper fixed end of the coupling member may also be a hole penetrating on the plane of the horizontal portion.

According to the present invention, it is possible to use the upper fixed end and the lower fixed end to join the building accessory without a separate fastening part. The above-mentioned building accessory material may be, for example, a joining member used in place of the reinforcing bars in the concrete structure, or a fixture for mounting the hanger to the ceiling.

According to the civil engineering construction panel of the present invention, the joining members for reinforcing bars and hanger fasteners can be easily integrated by the fixing protrusions integrally formed on both sides of the panel, so that the joining members form a layered structure, And concrete is cured while being integrated with the concrete, so the work of installing the form is omitted. In addition, there is no need to remove formwork after concrete has been cured, and it is easy to lay the joining member used as a substitute for reinforcing steel, so that it is possible to shorten the construction period by reducing workforce and work process due to excellent field application and easy construction workability There is an effect that can be made.

In addition, the panel is provided with a thermal insulation material in a state of being filled with a thermal insulating material, so that the filling of the thermal insulation material is omitted, and the panel is integrated with the concrete, thereby increasing the rigidity of the structure, thereby making a rigid concrete structure capable of preventing deflection and cracking .

BRIEF DESCRIPTION OF THE DRAWINGS The features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

Hereinafter, embodiments of the present invention will be described.

1 shows an exploded perspective view of the present invention. As shown in this figure, the joining member 1 of the present invention is composed of a vertical part 10 and a horizontal part 20 while being made of metal.

The joining member 1 can be extrusion-molded and can be manufactured by roll forming.

The vertical part 10 is composed of a first vertical part 101 and a second vertical part 102. The upper part is connected to the horizontal part 20 and the first vertical part 101 and the second vertical part 102 are connected to each other. Lower fixed ends 103 and 104 are formed at the lower ends of the lower fixed ends 103 and 104, respectively.

The horizontal portion 20 is connected to the first vertical portion 101 and the second vertical portion 102 at both ends thereof to form the upper fixed ends 200 and 201.

When the engaging member 1 is manufactured by roll forming, the horizontal portion 23 is bent in a direction perpendicular to the upper end of the first vertical portion 101, and the horizontal portion 23 is bent in a direction perpendicular to the end portion of the horizontal portion 20 And a second vertical part 102 parallel to the first vertical part 101 is formed by bending.

Lower fixed ends 103 and 104 are formed at the lower ends of the first vertical part 101 and the second vertical part 102 bent by the roll forming and the first vertical part 101 and the horizontal part 20 Horizontally shaped upper fixed ends 200 and 201 are bent and protruded on the connecting portion and the connecting portion of the horizontal portion 20 and the second vertical portion 102, respectively.

The first vertical portion 101 and the second vertical portion 102 are formed with elastic cutting grooves 105 at regular intervals so that the lower fixed end portions 103 and 104 can be easily coupled to other joining members.

When the concrete is poured into the upper horizontal portion 20 and a rectangular hole 202 is formed in the upper horizontal portion 20 so that the lower fixed end of the other engaging member can be inserted and engaged when the concrete member is layered, .

The lower fixed end portions 103 and 104 are formed with a plurality of spaces 203 that receive the horizontal portions 20 of other coupling members at regular intervals. 2 fixing protrusions 107 and 108 are protruded from the end of the vertical portion 102. [

The fixing projections 107 and 108 are formed in a rounded shape on the outer surface so that they can be easily engaged with the upper fixed ends 200 and 201 of other coupling members.

The panel 3 applied to the embodiment of the present invention is formed with fixing pieces 30 and 31 which are inserted into the space 203 of the coupling member 1 and are coupled to the fixing projections 107 and 108.

The embodiment of the present invention thus constituted is characterized in that the fixing projections 107 and 108 of the other engaging member 1 are in contact with the upper fixed ends 200 and 201 respectively in the direction crossing above the horizontal portion 20 of the engaging member 1 The first vertical portion 101 and the second vertical portion 102 where the fixing protrusions 107 and 108 are formed while elasticity is generated by the elastic cutout groove 105 can be obtained by pressing the horizontal portion 20 of the coupling member 1 at the position, The horizontal portion 20 including the upper fixed end portions 200 and 201 is inserted into the space 203 and coupled thereto.

In this way, when a plurality of joining members are coupled to each other in a direction crossing another joining member layer in a state where the joining member layers of the first row are formed at an appropriate interval above the joining member 1, It is possible to construct the floor structure in layers.

5 shows an example of a ceiling slab in which the concrete 4 is installed in the embodiment of the present invention. The concrete poured therein reaches the inner space of the coupling member 1 through the hole 202 formed in the coupling member 1 and reaches the upper surface of the panel 3. [

6 and 7 show another embodiment of the present invention in which the fixing protrusions 107 and 108 are coupled to the hole 202 formed in the horizontal portion 20 of the coupling member 1. [

According to the present invention, the joining members 1 are integrally combined with each other while forming a layered structure, the joining members used for the reinforcing bars can be easily moved, The construction period can be shortened, and the panel and the joining member, which are used as a form substitute, are integrally combined, and since the panel is integrated with the concrete to be cured while acting as a form, the work of installing the form is omitted, and after the concrete is cured It is possible to construct a highly rigid concrete wall which does not need to remove the formwork.

1 is an exploded perspective view of the present invention

Figure 2 is a partial cross-

3 is an enlarged view of part A in Fig. 1

Fig. 4 is a plan view

Figure 5 is a cross-sectional view of a concrete pavement and a ceiling panel hanger in an embodiment in which the present invention is applied to a ceiling slab

6 is an exploded perspective view showing another embodiment of the present invention.

FIG. 7 is an enlarged cross-sectional view of a portion to which a coupling member is coupled in the embodiment of FIG.

DESCRIPTION OF THE REFERENCE NUMERALS

1: coupling member 101: first vertical part

102: second vertical portion 105: elastic incision groove

107? 108: Fixing projection 200? 201 upper fixed end

202: hole

Claims (5)

A second vertical portion 102 formed in parallel with the first vertical portion 101 from an end of the horizontal portion 20 and a second vertical portion 102 formed parallel to the first vertical portion 101, And the fixing protrusions 107 and 108 are formed by the lower fixed ends 103 and 104 at the lower ends of the first vertical part 101 and the second vertical part 102,  Wherein an upper fixed end portion (200, 201) is protruded from a horizontal portion (20) bounded by the first vertical portion (101) and the second vertical portion (102) in a horizontal plane. 2. The connector according to claim 1, wherein a cutout groove (105) is formed in the first vertical portion (101) and the second vertical portion (102) Of the reinforced concrete structure. The constructing structure of a reinforced concrete structure according to claim 1, wherein the fixing projections (107, 108) are combined with fixing pieces (30, 31) of a panel (3) used as a formwork. delete delete

Images