KR102787079B1 - Temporary Structures for the Construction of Cantilever Slabs in Buildings - Google Patents

Abstract

The present invention relates to a support for preparing a slab for a building constructed by a cast-in-place method, and provides a temporary structure for constructing a cantilever slab of a building by moving and installing at least one or more slabs in a cart manner.
The present invention comprises a bracket-shaped auxiliary scaffolding member that is detachably installed on an upper side of a fuselage to support a plate-shaped formwork for forming a cantilever slab, a support rail that is installed across between beams in the direction of intersection of the lengths of the channel-shaped formwork within the upper part of the fuselage to support timber so as to be able to slide, and a tie member that binds and releases between the timber and the support rail, thereby enabling the construction of a cantilever slab whose length is provided in accordance with the design of a building while allowing the channel-shaped formwork to be freely moved on the support rail.

Description

{Temporary Structures for the Construction of Cantilever Slabs in Buildings}

The present invention relates to a support for preparing a slab for a building constructed by a cast-in-place method, and more particularly, to a temporary structure for constructing a cantilever slab of a building in which at least one or more slabs are grouped together and moved and installed in a cart manner.

The construction of cantilever slabs, which are floors or other structures that protrude outside the walls of a building and are surrounded by railings or low walls, i.e., one end is fixed and the other end is not supported, is generally constructed using the on-site assembly or on-site casting method.

Among the construction methods of cantilever slabs, the on-site casting method, which has relatively free design and excellent fire resistance and earthquake resistance, mainly uses bracket-type temporary structures, and such bracket-type temporary structures are supports that support the casting load.

These bracket-type temporary structures, which are support structures, are roughly composed of a first plate fixedly installed on the side wall of a structure, a second plate having one end hinged to the upper end of the first plate and the other end free to support the bottom of the cantilever slab, and an elastically adjustable support member provided between the first and second plates so that the second plate can fold or unfold about the hinge as the center of rotation.

However, since the free end of the second plate of this bracket-type temporary structure is not supported, it is structurally vulnerable, and when the cantilever slab is poured with concrete, it can be deformed or detached due to impact, vibration, and compressive load, resulting in safety accidents such as collapse, which cannot prevent fatal accidents at construction sites.

In addition, cantilever slabs protruding from the building walls are constructed in different lengths according to the architectural design, and thus, the construction cost increases as temporary structures for cantilever slabs of different lengths must be manufactured separately.

In addition, it is essential to install additional scaffolding or work platforms to provide a foothold for workers installing bracket-type scaffolding structures.

Accordingly, in recent years, there has been a demand for structural innovation in temporary structures that not only secure the structural stability of the temporary structure and prevent safety accidents when constructing cantilever slabs that protrude beyond the walls of a building, but also enable the construction of various cantilever slabs that protrude continuously from the beam-integrated slab to the long and short lengths.

Republic of Korea Registered Utility Model No. 20-0238564

The present invention provides a variable scaffolding for constructing various cantilever slabs that are designed to protrude from the outside of a building in a long or short length in succession to a beam-integrated slab, which is the floor of a building, and at the same time, provides a scaffolding structure for constructing a cantilever slab of a building, which can enhance structural stability, prevent collapse accidents that may occur during construction, and improve the working environment and safety of workers.

The purpose of the present invention is to provide a temporary structure for the construction of a cantilever slab of a building in which the slabs are moved and installed in a cart manner as a support for preparing a slab of a building constructed by a cast-in-place method.

A temporary structure for constructing a cantilever slab of a building, which is formed by a beam-integrated slab supported by a pair of timbers arranged in parallel along both sides in the longitudinal direction under the floor slab, with side walls installed on the left and right sides of the floor slab, and which is continuously provided to protrude from the building wall in the longitudinal direction according to the design, and which is equipped with foldable wheels on the lower part of the body that is grouped by mutual connection with the adjacent side using connecting rods installed horizontally above and below between the beams arranged in parallel in all directions with a vertical interval, and which can be moved in the form of a cart at the construction site, including a bracket-type auxiliary temporary structure that is additionally installed in a detachable manner on one side of the upper part of the body to support the plate-shaped formwork for forming the cantilever slab, a support rail that is installed horizontally between the beams in the longitudinal direction of the channel-type formwork in the upper part of the body to support the timber so that it can slide, and a tie material that is tied and released between the timber and the support rail, This allows the formwork to be freely moved on the support rails, allowing the construction of cantilever slabs with different lengths according to the design of the building.

According to the temporary structure for constructing a cantilever slab of a building according to the present invention, it can be commonly used for all of the various cantilever slabs that are constructed in a length of long and short according to the architectural design in succession to a beam-integrated slab, and therefore, it has the effect of reducing the cost of temporary materials, increasing structural stability, preventing collapse accidents that occur during the construction process, and further improving the work environment and safety.

In addition, in one aspect of the invention, the bracket-type work platform can be installed at any location by a simple attachment/detachment method, that is, it can be freely changed to the required work location on site, and a work foundation is provided, which has the effect of improving workability and increasing worker safety.

Figure 1 is a drawing schematically showing the overall configuration of a temporary structure for constructing a cantilever slab of the building of the present invention.
Figure 2 is an enlarged drawing showing an excerpt of a major part of a temporary structure for constructing a cantilever slab of the building of the present invention.
Figure 3 is an enlarged cross-sectional view taken along line AA of Figure 2.
Figure 4 is a perspective view showing an extract of a tie-down material applied to a temporary structure for constructing a cantilever slab of a building of the present invention.
FIG. 5 is a diagram illustrating the operation process of a temporary structure for constructing a cantilever slab of a building of the present invention, showing the formwork moving in the direction of the arrow along the support rail in accordance with the change in the protruding length of the cantilever slab from the building wall.

Next, an embodiment of the present invention will be described. FIGS. 1 to 4 illustrate in detail a temporary structure for constructing a cantilever slab of a building according to the present invention.

The present invention relates to a support for preparing a slab for a building constructed by a site-cast concrete method, and more specifically, to a temporary structure for constructing a cantilever slab (CSB) that is provided by protruding from a building wall with a length and a length according to an architectural design in succession to a beam-integrated slab (SB).

In the drawing, 10 is the body of the temporary structure, and 20 is a channel-shaped formwork for forming a beam in a beam-integrated slab (SB).

First, the fuselage (10) is grouped by mutual connection with the adjacent side using the connecting rods (14) installed horizontally across the upper and lower sides between the horizontal rods (12) and the vertically spaced parallel arrangement of the fuselage (10), and a folding wheel (16) is provided on the lower part of the fuselage (10) so that it can be moved in a cart-like manner at the construction site.

The channel-type beam formwork (20) has a floor plate (22) in the center, side walls (24) installed on the left and right, and is supported by a pair of timbers (26) arranged in parallel along both sides in the length direction under the floor plate (22), and a beam-integrated slab (SB) is built through a predetermined curing process.

This configuration is the same as the conventional one, and the core technology of the present invention is characterized by allowing the construction position of the formwork (20) to be freely changed so that the cantilever slab (CSB) protruding from the wall of the building can properly respond to the position of the slab (SB) beam (SB-1) whose length changes according to the architectural design.

The present invention has a bracket-type auxiliary scaffolding member (110) that is additionally installed in a detachable manner using a conventional socket (13) and a wedge (15) that are fitted into a support (12) of one side of the upper side of a body (10) as shown in Fig. 1, and that supports a plate-shaped formwork (BM) for forming a cantilever slab (CSB). At this time, a conventional head jack (HJ) whose height can be freely adjusted is provided on each of the upper side of the auxiliary scaffolding member (110) and the support (12) of the body (10) to support the plate-shaped formwork (BM) for forming the cantilever slab (CSB).

Inside the upper part of the fuselage (10), as shown in FIGS. 2 and 3, a support rail (120) is installed across the formwork (20) between the beams (12) in the longitudinal direction intersecting with each other to support the timber (26) so that it can slide. At this time, the support rail (120) is formed in a square tube shape.

Between the timber (26) and the support rail (120), there is a pair of left and right tie members (140) that can be tied and released between them.

As shown in Fig. 4, the tie-down member (140) is provided with suspension members (142) that are arranged in a pair on both sides of the longitudinal direction of the support rail (120) and are fitted and connected with grooves (26a) provided along the longitudinal direction of the timber (26) at the upper end thereof, horizontal supports (144) that are installed horizontally under the support rail (120) between the lower ends of the suspension members (142), and bolts (146) that tighten the screws for fastening between the support rail (120) and the timber (26) are provided on the horizontal supports (144).

The temporary structure for constructing a cantilever slab of the building of the present invention configured in this manner enables the construction of a cantilever slab (CSB) with a length of long or short according to the design of the building while freely moving the channel-shaped formwork (20) on the support rail (120).

Meanwhile, it further has a bracket-type work platform (160) that is additionally installed in a detachable manner using a socket (13) and a wedge (15) that are fitted into a side of a fuselage (12) of the fuselage (10).

Then, the construction process of the temporary structure for constructing the cantilever slab of the building of the present invention will be explained with reference to FIGS. 2 and 5.

Figure 2 shows a case where the protrusion of a cantilever slab (CSB) is constructed at a short length, and a formwork (20) for forming a beam (SB-1) of a slab (SB) is placed at the middle position of a support rail (12) of a body (10) to perform a predetermined concrete curing process.

Figure 5 shows a case where the protrusion of a cantilever slab (CSB) is constructed in a long length, and the formwork (20) for forming the beam (SB-1) of the slab (SB) is moved to the left along the support rail (12) in the direction of the arrow indicated in the drawing to perform a predetermined concrete curing process.

And the movement of the formwork (20) will be accomplished by loosening the bolt (146) of the tie (140) that binds and releases between the timber (26) and the support rail (120).

In this way, the movement of the formwork (20) is first carried out by releasing the tie (140) that was binding between the timber (26) and the support rail (120), and then pushing the formwork (20) in the direction of the arrow, so that the timber (26) slides along the support rail (120), and the position of the formwork (20) can be freely changed according to various cantilever slabs (CSBs) that are constructed with the lengths of the long and short sides according to the architectural design.

In addition, by using a bracket-type work platform (160) that can be easily installed in a detachable manner on one side of the fuselage (10), a work space suitable for the construction site or work environment is provided, thereby reducing the need for separate scaffolding installation, thereby lowering construction costs and improving work efficiency as well as worker work stability.

Although one embodiment of the present invention has been described above, the present invention is not limited thereto and may be modified within the scope set forth in the claims.

10: Body
12: Dongbari
14: Connector
20: Formwork
22: Floor plate
24: Side wall
26: Timber
110 : Auxiliary fixtures
120: Support rail
140: Binding Material
160: Working platform

Claims (3)

A temporary structure for the construction of a cantilever slab of a building, which is formed by a channel-shaped formwork supported by a pair of timbers arranged in parallel along both sides in the longitudinal direction under the floor slab, with side walls installed on the left and right sides of the floor slab, and a cantilever slab that is provided to protrude from the building wall in the longitudinal direction according to the design, and a body that is grouped by mutual connection with the adjacent side using connecting rods installed horizontally above and below between the timbers arranged in parallel in all directions with a vertical interval, and is equipped with foldable wheels on the lower part of the body so that it can be moved in a cart-like manner at the construction site.
A bracket-type auxiliary scaffolding member that is detachably installed on one side of the upper part of the above-mentioned body to support a plate-shaped formwork for forming the above-mentioned cantilever slab;
A support rail installed across the upper part of the above body between the above-mentioned ridges in the direction of intersection of the length of the channel-shaped formwork to support the above-mentioned timber so that it can slide; and
It includes a suspension beam that is arranged in parallel as a pair on both sides of the longitudinal direction of the support rail and that is hung so that both upper ends can freely move along the grooves provided in the timber, a horizontal support installed across the lower end of the suspension beam, and a fastener that is formed by a bolt that is screwed into the bottom surface of the support rail to the horizontal support and that binds and releases between the timber and the support rail.
Here, a temporary structure for constructing a cantilever slab of a building is characterized in that the channel-shaped formwork can be freely moved on the support rail, and the cantilever slab can be constructed with a length of long and short according to the design of the building. delete In the first paragraph,
A temporary structure for constructing a cantilever slab of a building, further comprising a bracket-type working platform for a worker detachably installed on one side of the above body.