KR100860422B1 - Mold device for horizontal, vertical all style concrete construction - Google Patents

Abstract

The present invention relates to a formwork for forming a horizontal, vertical integral concrete structure, characterized in the configuration, the horizontal portion (1) forming a foundation on the discarded concrete (L) and the vertical to form a wall or pillar Reinforcing bars (3) placed on the discarded concrete (L) so as to reinforce at the boundary of the horizontal and vertical sections (1) (2) while simultaneously constructing the reinforcing bar (3) and the form (1A) (2A) of the section (2) A load reducing member 10 installed horizontally on the upper portion and provided with a plurality of through holes 12 to suppress the movement of the coarse aggregate; And a reinforcing panel 20 provided to extend horizontally at an end of the vertical portion 2A formwork 2A adjacent to the surface of the horizontal portion 1.

Accordingly, when the horizontal and vertical concrete structures are integrally constructed at the same time, the concrete weight of the vertical portion applied to the horizontal concrete is first and secondly reduced by the load reducing member and the reinforcement panel, thereby suppressing the rise of the horizontal concrete. In addition, the vertical formwork is firmly fixed by the connector together with the reinforcement panel has the effect of preventing the overall deformation of the formwork during the concrete pouring.

Formwork, concrete, rebar, panel

Description

Forming device for forming horizontal and vertical integrated concrete structures {Mold device for horizontal, vertical all style concrete construction}

1 is a configuration diagram showing a formwork device for constructing an integrated concrete structure having a horizontal, vertical structure in the prior art.

Figure 2 is a schematic view showing a formwork apparatus for forming a horizontal, vertical integral concrete structure according to the invention as a whole.

Figure 3 is an enlarged view showing the main portion of the formwork apparatus for forming a horizontal, vertical integral concrete structure according to an embodiment of the present invention.

Figures 4a to 4c is a block diagram showing a load reducing member according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: horizontal part 1A, 2A: formwork 2: vertical part

3: rebar 10: load reducing member 12: through hole

20: reinforcement panel 30: connector

The present invention relates to a formwork apparatus for constructing a concrete structure in a horizontal, vertical integral type, more specifically, a horizontal portion for forming a foundation in a single construction, and a horizontal for integrally constructing a vertical portion for forming a wall or column, A formwork apparatus for forming a vertical integral concrete structure.

In general, concrete structures are constructed first with horizontal parts such as foundations, and then, after installing vertical formwork for constructing walls or columns on the horizontal parts, concrete is poured to construct buildings or sidewalls, retaining walls, and box-shaped structures. However, since the horizontal and vertical sections are separately installed, there are many cases in which the construction period is delayed and repair work is required due to the decrease in strength, cracks, and leaks in the areas where the horizontal and vertical sections are joined.

1 is a configuration diagram showing a formwork apparatus for constructing an integrated concrete structure having a horizontal and vertical structure in the prior art.

In Figure 1, the Republic of Korea Patent Publication No. 2005-0050523 (integral concrete structure having a horizontal, vertical structure and its construction method and construction parts and formwork support) at the same time to install the formwork for the construction of the structure connected horizontally and vertically After the installation of a network to suppress the movement of concrete at the boundary connected to the horizontal and vertical, and the concrete is placed on the horizontal and vertical formwork installed at the same time, the horizontal and vertical concrete structure construction technology is already disclosed have.

By the way, the above technique is to pour horizontal and vertical concrete structure at the same time, but many problems have been raised as follows.

Firstly, the movement of coarse aggregates is suppressed, so the lateral flow pressure, ie the lateral load of concrete trying to move from vertical to horizontal, is partially reduced, but the original vertical that small particles such as sand cement pass through and rise from horizontal Since the pressure could not be suppressed, a closed end with convex protrusion of the horizontal concrete was followed.

Second, restrain the concrete load on the vertical part applied to the horizontal part depending on the net, so that the net fails to bear the load and bursts frequently.In this case, when the net is broken, the mold is removed as well as the cast concrete. Since the construction work had to be reconstructed, the construction period was delayed.

Third, since the inner formwork of the vertical part is simply installed across the support, deflection to the lower part is prevented, but when the vertical load is applied to the concrete to rise to the horizontal part due to the flow to the upper part, the entire formwork of the vertical part expands to the outside Followed by a closure that led to deformation of the structure.

The present invention was created in order to solve the above problems, in the construction of the horizontal portion forming the foundation and the vertical portion forming the wall or column integrally in the construction, due to the concrete weight of the vertical portion of the horizontal load acting as well rises as well The present invention relates to a formwork for forming horizontal and vertical integral concrete structures for flexibly reducing vertical loads to be raised.

In order to achieve this object, the present invention provides the horizontal portion 1 forming the foundation on the discarded concrete L, the rebar 3 and the formwork 1A (2A) of the vertical portion 2 forming the wall or the pillar. ) Is installed horizontally on the reinforcement (3) placed on the discarded concrete (L) so as to be placed at the boundary of the horizontal and vertical portions (1) and (2) at the same time, and to suppress the movement of the coarse aggregate A load reducing member 10 having a through hole 12; And a reinforcing panel 20 provided to extend horizontally at an end of the vertical portion 2A formwork 2A adjacent to the surface of the horizontal portion 1.

At this time, the load reducing member 10 is a mesh 10A formed of a thread or iron wire or a mesh 10B formed of a thread or iron wire coated with cement (C), a concrete block 10C having a plurality of through holes 12 formed therein. It is characterized in that it is selectively installed among the.

In addition, the reinforcement panel 20 is characterized in that the integrally formed at the end of the formwork (2A) of the vertical portion (2) or partly manufactured to be detachably installed.

In addition, the reinforcement panel 20 is characterized in that it is fixed at a certain height by the connector 30 is installed so that one end is embedded in the discarded concrete (L).

In addition, the size of the reinforcement panel 20 is characterized in that the height of the vertical portion (2) and the angle of repose formed by the reinforcement panel 20 is maintained at 50 ° ~ 60 °.

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

Figure 2 is a schematic view showing a formwork apparatus for forming a horizontal, vertical integral concrete structure according to the present invention, Figure 3 is a formwork apparatus for forming a horizontal, vertical integral concrete structure according to an embodiment of the present invention 4A through 4C are diagrams illustrating the load reducing member according to the exemplary embodiment of the present invention.

The present invention relates to a formwork for forming a horizontal, vertically integrated concrete structure, wherein the formwork for forming a horizontal, vertically integrated concrete structure is perpendicular to the horizontal portion (1) of the concrete structure on the discarded concrete (L) When the unit 2 is integrated at the same time, the horizontal part 1 is convexly protruded due to the weight of the concrete filled in the vertical part 2 and the load of the concrete applied to the horizontal part is distributed so that the load is distributed. Reducing member 10, the reinforcing panel 20, the connector 30 is characterized in that the main configuration.

The rebar 3 and the formwork 1A and 2A of the horizontal portion 1 forming the foundation according to the present invention and the vertical portion 2 forming the wall or the pillar are simultaneously constructed. In this case, the reinforcing bar 3 and the formwork 1A and 2A are integrally constructed to simultaneously form the horizontal part 1 and the vertical part 2, where the formwork 1A and 2A are perpendicular to the horizontal part 1. The upper part is constructed to open the concrete into the part (2).

In addition, the load reducing member 10 according to the present invention is installed horizontally on the reinforcing bar (3) reinforcement to the discarded concrete (L) so as to reinforce the horizontal and vertical portion (1) (2) of the boundary, the coarse aggregate A plurality of through holes 12 are provided to suppress movement. The load reducing member 10 is fixed at the edge portion so as to prevent flow in the state of being installed at the boundary portion of the horizontal and vertical portions 1 and 2 during the step of reinforcing the reinforcing bar 3. Accordingly, the pressure exerted on the horizontal portion 1 by the weight of the vertical portion 2 when concrete is placed on the formwork 1A, 2A of the horizontal and vertical portions 1 and 2 is partially reduced.

At this time, the load reducing member 10 is a mesh 10A formed of a thread or iron wire or a mesh 10B formed of a thread or iron wire coated with cement (C), a concrete block 10C having a plurality of through holes 12 formed therein. Is optionally installed. As shown in FIGS. 4A to 4B, the mesh 10B coated with thread or iron wire has superior durability due to warpage than the mesh 10A formed simply with thread or iron wire, so that the horizontal portion (eg, The flow pressure applied to 1) is reduced, and since the concrete is more closely fused after placing the concrete to serve as a frame at the same time, the strength of the concrete structure is improved. And the concrete block (10C) as shown in Figure 4c serves to reduce the concrete load of the vertical portion (2) applied to the horizontal portion 1, as well as extending to one side to extend the vertical portion (2) formwork 2A from the bottom As it supports, it improves workability by formwork.

In addition, the reinforcement panel 20 according to the present invention is provided to extend horizontally at the end of the vertical portion (2) formwork 2A proximate the surface of the horizontal portion (1). The reinforcement panel 20 is installed to partially close the open upper part of the horizontal part 1 adjacent to the vertical part 2, and the vertical part 2 reduced through the load reducing member 10 as shown in FIG. It supports the upper surface of the horizontal part 1 which tries to rise locally by the concrete load. Thus, even when concrete is poured simultaneously into the form 1A and 2A of the horizontal and vertical portions 1 and 2, deformation of the horizontal portion 1 concrete due to the weight of the vertical portion 2 is prevented.

At this time, the reinforcement panel 20 is integrally formed at the end of the formwork (2A) of the vertical portion (2) or partly manufactured and detachably installed. That is, the reinforcement panel 20 is provided on the formwork (2A) integrally as shown in Figure 3 during the continuous construction of the already standardized concrete structure to improve the workability according to the repeating process, and further reinforcement panel 20 Separately manufactured by separating and using as needed, there is an advantage that can be used to form the concrete structure horizontally and vertically (1) (2) by using the existing formwork.

In addition, the reinforcement panel 20 is fixed at a constant height by the connector 30 is installed so that one end is embedded in the discarded concrete (L). Since the reinforcement panel 20 is fixed by the connector 30 in a state of being integrally or assembled and fixed on the formwork 2A installed inside the vertical part 2, the flow due to the load of the vertical part 2 concrete is more solid. At the same time, since the inner mold 2A is supported together with the vertical part 2, the overall deformation of the vertical mold 2A is prevented.

In addition, the size of the reinforcement panel 20 is provided so that the height of the vertical portion (2) and the angle of repose (a) formed by the reinforcement panel 20 is maintained at 50 ° ~ 60 °. That is, the reinforcement panel 20 may be maintained such that an angle of repose (a) formed by the horizontal portion 1 to an arbitrary hypotenuse H connecting the end of the reinforcement panel 20 and the vertical part 2 is maintained at 50 ° to 60 °. With it, the concrete load, which is increased in proportion to the height of the vertical portion 2, is flexibly supported.

In construction, first, the horizontal part 1 forming the foundation and the reinforcing bar 3 and the formwork 1A and 2A of the vertical part 2 forming the wall or the column are simultaneously installed, but the reinforcing bar 3 is provided. And the connector 30 is poured with the discarded concrete (L). Subsequently, the load reducing member 10 is installed on the reinforcing bar 3 as well as horizontally installed so that the reinforcing panel 20 extends through the connector 30 to one end of the vertical part 2A formwork 2A.

Subsequently, when concrete is poured into the formwork 1A and 2A, the concrete weight of the vertical part 1 acts on the lateral load toward the horizontal part 1, where the load reducing member 10 suppresses the transfer of the coarse aggregate. To reduce the load primarily, and reinforce the panel 20 secondly to block the vertical load of the concrete in the horizontal section (1) that is about to rise due to the lateral load. The rise of the horizontal part 1 and the deformation | transformation of the formwork 1A and 2A by the simultaneous construction integrally are prevented.

On the other hand, in Figures 2 to 3 as an embodiment of the concrete structure in which the horizontal portion 1 and the vertical portion 2 is formed integrally "L" shaped retaining wall, but not limited to this, "U" side opening It is also applicable to concrete structures having a vertical portion 1 and a horizontal portion 2, such as a box-shaped structure.

According to the above configuration and action, in the present invention, when the horizontal and vertical concrete structures are integrally constructed at the same time, the concrete weight of the vertical portion applied to the horizontal portion concrete is first and secondly reduced by the load reducing member and the reinforcement panel. The rise phenomenon of concrete is suppressed, and also the vertical formwork is firmly fixed by the connector with the reinforcement panel, so that the overall deformation of the formwork is prevented while placing the concrete.

In addition, the load reduction member and the reinforcement panel can be used to cast the concrete in the horizontal portion and the vertical portion in a single process, thereby reducing the construction period and reducing the construction cost.

Claims (5)

While simultaneously constructing the horizontal portion 1 forming the foundation on the discarded concrete L, and the reinforcing bars 3 and the formwork 1A and 2A of the vertical portion 2 forming the wall or the column, It is installed horizontally on the reinforcement (3) placed on the discarded concrete (L) so as to reinforce the horizontal and vertical portion (1) (2) of the boundary portion, a plurality of through holes 12 are provided to suppress the movement of coarse aggregate A load reducing member 10; It extends horizontally at the end of the vertical portion (2) formwork (2A) close to the surface of the horizontal portion 1, and fixed at a constant height by the connector 30 is installed so that one end is embedded in the discarded concrete (L) Formwork device for forming a horizontal, vertical integral concrete structure comprising a; reinforcing panel provided; The method of claim 1, The load reducing member 10 may be selected from among a net 10A formed of a thread or iron wire or a net 10B formed of a thread or iron wire coated with cement (C), and a concrete block 10C having a plurality of through holes 12 formed therein. Formwork apparatus for molding horizontal and vertical integrated concrete structure, characterized in that the alternative installation. The method of claim 1, The reinforcement panel 20 is a formwork device for forming a horizontal, vertical integral concrete structure, characterized in that formed integrally formed at the end of the formwork (2A) of the vertical portion (2) or is detachably installed. delete delete

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