KR100893765B1 - Support Structure of Slab Formwork - Google Patents

Abstract

The present invention relates to the support structure of the slab formwork to prevent the descent of the slab formwork, more specifically in the form of a quadrangular pipe respectively installed along the top of the facing wall formwork, facing each other in part or all in the longitudinal direction A cradle having an opening having a shape in which the surface and the lower surface are cut in a N-shape; Connection plates which are spaced apart at regular intervals along the length direction of the holder, the side plate is coupled to the inner surface of the holder; Supports are installed between the facing stand, to support the slab formwork; A support installed at a lower portion of the support to support the support; And, the long hole is formed along the longitudinal direction, one end is pin-connected to the connecting plate through the long hole, the other end or the longitudinal direction is connected to the support by a connecting hardware through the long hole and the support, based on the one end Rotatable connecting bars; It consists of, the lower end of both ends of the support is chamfered, the support is for the support structure of the slab formwork, characterized in that the height is adjusted according to the lowering of the connection bar according to the rotation of the connection bar.

When the present invention is used, by adjusting the height of the support for supporting the slab formwork to prevent the descent of the slab formwork, it is possible to prevent damage and noise of the temporary material due to the sudden fall of the temporary material.

Furthermore, the present invention can be economically constructed at a low cost, easy installation and dismantling of the temporary material is improved construction properties.

Description

Supporting structure of slab form

The present invention relates to a support structure of the slab formwork that can prevent the descent of the slab formwork by adjusting the height of the support for supporting the slab formwork.

Construction of the structure using reinforced concrete is carried out in the order of placing concrete, such as formwork, and then placing concrete.

In particular, the construction of each layer slab of the structure is achieved by pouring concrete at the same time as the lower wall part. Therefore, when constructing slabs, the wall formwork for (n) layered walls is installed on the front and rear of the wall respectively, and the slab formwork of (n + 1) layer is placed on the upper side of the wall formwork facing the walls which are spaced apart at regular intervals. After installing horizontally, the concrete for walls and slabs is poured and cured inside the wall formwork and the upper part of the slab formwork, and then the temporary materials such as wall formwork and slab formwork are dismantled.

On the other hand, since the slab formwork is supported by the wall formwork, it is insufficient to support the load of concrete poured on the upper portion. Therefore, vertical support should be installed under the slab formwork to support the load on the top of the slab.

For this reason, when dismantling the slab formwork, the support is dismantled and the slab formwork is demolded. However, in this process, there is a problem that the slab formwork drops sharply due to the removal of the support and the weight of the slab formwork.

The lowering of the slab formwork may cause noise on the construction site, and damage the formwork itself, thereby reducing the recycling rate of the temporary material.

The present invention, which was created to solve the above problems, prevents the descent of the slab formwork during the dismantling of the slab formwork, thereby minimizing the noise caused by the dismantling work of the temporary material, and at the same time, to promote economic construction by preventing damage to the temporary material. do.

In order to solve the above problems, the present invention is a quadrangular pipe shape respectively installed along the top of the wall formwork facing each other, the opening of the shape in which the opposite surface and the lower surface facing each other in the longitudinal direction or the whole cut in a b-shape Formed cradle; Connection plates which are spaced apart at regular intervals along the length direction of the holder, the side plate is coupled to the inner surface of the holder; Supports are installed between the facing stand, to support the slab formwork; A support installed at a lower portion of the support to support the support; And, the long hole is formed along the longitudinal direction, one end is pin-connected to the connecting plate through the long hole, the other end or the longitudinal direction is connected to the support by a connecting hardware through the long hole and the support, based on the one end Rotatable connecting bars; To be made, the lower end of both ends of the support is chamfered, the support provides a support structure of the slab formwork, characterized in that the height is adjusted according to the lowering of the connection bar according to the rotation of the connection bar.

That is, the support bar positioned below the slab formwork and the connecting bar which mediates the upper part of the wall formwork can control the height of the slab formwork when the slab formwork descends, thereby preventing a sudden drop of the slab formwork.

According to the present invention as described above has the following effects.

First, the present invention is to control the height of the slab formwork when dismantling the slab formwork, it is possible to prevent the descent of the slab formwork.

Second, in the case of using the present invention can minimize the noise caused by the dismantling of the temporary material, it is possible to resolve the complaints.

Third, since the present invention can be applied to the system formwork with a simple structure, it is possible to improve the workability by reducing the effort required to install and dismantle the temporary material.

Fourth, in the case of using the present invention it is possible to reduce the damage of the temporary material to recycle the temporary material. In addition, the connection bar constituting the present invention can be produced at a low cost it is possible to economical construction.

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

1 is a cross-sectional view illustrating an embodiment of a support structure of a slab formwork SF, and shows a relationship between the connecting bar 50 and the support 30 when demolding the slab formwork SF.

As shown in FIG. 1, the supporting structure of the slab formwork SF of the present invention is a quadrangular pipe shape respectively installed along the upper side of the facing wall formwork WF, and the opposing surface facing each other in part or all of the longitudinal direction. A cradle 10 formed with an opening 12 having a shape in which the upper and lower surfaces are cut in a N-shape; A connection plate 20 which is installed to be spaced apart at a predetermined interval along the length direction of the holder 10, and a side plate is coupled to an inner surface of the holder 10; A support (30) installed between the cradles (10) facing each other to support the slab formwork (SF); A support (40) installed at a lower portion of the support (30) to support the support (30); And, the long hole 52 is formed along the longitudinal direction, one end is pin-connected to the connecting plate 20 through the long hole 52, the other end or the lengthwise portion penetrates the long hole 52 and the support 30 Is connected to the support 30 by the connecting hardware 72, rotatable connection bar 50 based on the one end; To be made, the lower end of both ends of the support 30 is chamfered, the support 30 is characterized in that the height is adjusted according to the falling of the connection bar 50 in accordance with the rotation of the connection bar (50).

Here, the cradle 10 is a portion connected to both ends of the support 30 for supporting the load of the slab concrete, is installed along the top of the wall facing wall formwork (WF) of the walls are spaced apart from each other by a predetermined interval.

At this time, the wall formwork (WF) constituting one wall is mutually connected and supported by a plurality of connecting pieces (1) connecting them.

In addition, the holder 10 has a quadrangular pipe shape, and an opening 12 having a shape in which the opposing surface and the lower surface facing each other over a part or the whole in the longitudinal direction is cut in a b-shape is formed. Here, the cradle 10 is manufactured to protrude toward the wall formwork WF facing the wall formwork WF below the cradle 10, and the support 30 in the inside of the cradle 10 through the opening 12. The end of can be positioned.

As a result, since the width of the slab formwork SF is less than or equal to the distance between the facing wall formwork WF, it is possible to reduce the interference with the wall when the slab formwork SF descends.

On the other hand, the cradle 10 is provided with a connecting plate 20 coupled to the inner surface of the cradle 10 is spaced apart at regular intervals along the longitudinal direction of the cradle 10.

The connecting plate 20 is a member to which the connecting bar 50 for adjusting the vertical movement distance of the support 30 is coupled, and is welded to the inside of the holder 10 as shown in FIG. 1.

Considering that the end of the support 30 is later installed inside the holder 10 through the opening 12, the connecting plate 20 is preferably installed at the opening 12 side.

In addition, the present invention is installed between the support stand 10 to support the slab formwork (SF) support 30, and the support 40 is installed in the lower portion of the support 30 to support the support (30) Include.

At this time, both ends of the support 30 are chamfered, and both ends of the support 30 are positioned inwardly of the holder 10 to prevent the descent of the support 30.

In addition, the support 30 may be formed with a plurality of coupling holes 32 along the longitudinal direction of the support 30 so that the connecting hardware 72 can pass through. Coupling hole 32 is formed centrally at both ends of the support 30, the distance between the adjacent coupling hole 32 can be further spaced toward the end of the support (30).

In the present invention, since the support 30 is a single member installed for the slab crossing between the facing walls, it is possible to use a system formwork such as a deck panel for the slab formwork SF.

The support 40 is configurable as an inner tube and an exterior to allow height adjustment.

In addition, the present invention is characterized in that it comprises a connecting bar 50 connected at both ends to the connecting plate 20 and the support 30 in the cradle 10 installed on the wall formwork (WF) upper portion.

The connection bar 50 has a long hole 52 formed therein along the longitudinal direction, and as shown in FIG. 1, one end of the connection bar 50 is connected to the connection plate 20 through the long hole 52. It is pin coupled by the fixing pin (70). To this end, the connection plate 20 may be drilled in advance with the connection hole 22.

And the other end or the lengthwise portion of the connection bar 50 is connected to the support 30 by the connecting hardware 72 through the long hole 52 and the support 30, the support 30 is the connection bar 50 Height is adjusted according to the falling of the connection bar 50 according to the rotation of the). To this end, the connection bar 50 is configured to be rotatable based on one end of the connection hole 22 coupled to the connection plate 20 side.

Therefore, when the support 30 is located on the same horizontal line as the connecting plate 20, the support 30 is connected to the support 30 through the support 40 and the long hole 52 formed in the connecting bar 50. Supported by the cradle 10 by one or more connecting hardware 72 is to be.

In addition, when the support 30 descends as the support 40 descends, the height of the support 30 is controlled by the connection hardware 72 caught on the other end of the connection bar 50.

Next, Figures 2a to 2e is a view showing a step-by-step process of the structure construction method using the support structure of the slab formwork (SF).

The construction method of the structure using the support structure of the slab formwork (SF) will be described step by step as follows.

First, (a) the wall formwork (WF) is installed, and then installed on the wall formwork (WF) upper side facing the cradle 10 of claim 1 to which the connecting plate 20 of the present invention is coupled to the inner side (Fig. 2a).

Here, the cradle 10 is fixed to the wall formwork (WF) by pin bonding.

And the connecting plate 20 is welded to the inside of the holder 10 in advance for construction convenience, as shown in Figure 2a, the connecting plate 20 located in the opening portion 12 of the holder 10. The portion may form a step so as to coincide with the opening 12 of the holder 10.

Next, (b) while supporting the slab formwork (SF) between the mounting brackets 10 facing each other using the connecting bar 50 of claim 1, while installing the support 30 is chamfered both ends, the support ( A plurality of supports 40 are installed at the bottom of the support 30 to support the support 30 (FIG. 2B).

And (c) after installing the slab formwork (SF) consisting of a pillar deck (FD) located between the slab deck (SD) and the slab deck (SD) located at both ends on the support 30, the slab and The concrete 60 constituting the wall is poured (FIG. 2C).

At this time, since the slab formwork SF is located between the mounting brackets 10 facing each other, the width of the slab formwork SF is smaller than the distance between the facing wall formwork WF and the wall when demolishing the slab formwork SF and the wall. There is no interference.

delete

Finally, (d) demolding the wall formwork (WF) after curing of the concrete 60, while lowering the support 30 by removing the support 40 for supporting the slab deck (SD), the slab deck SD and the support 30 are disassembled (FIG. 2D).

In general, temporary materials for vertical members such as walls or columns are dismantled when the wall concrete reaches a strength of about 50 kgf / cm 2 before the temporary material for horizontal members.

Therefore, when the wall concrete reaches a predetermined strength through curing, the wall formwork WF is demoulded first.

When demolishing the wall formwork (WF), the cradle 10 is held in position by adhesion to the concrete 60, but in order to securely fix the cradle 10, a part of the wall formwork (WF) is left, or the inside of the wall. Bolts, etc. protruding into the concrete can be combined before placing the concrete (60).

After removing the support 40 supporting the slab deck SD, the slab deck SD and the support 30 are dismantled.
When the support 40 is removed, the support 30 is lowered until the connecting hardware 72 is caught in the other end 52 of the connecting bar 50 according to the rotation of the connecting bar 50.

In general, slab concrete needs to be supported until it reaches a strength of about 140kgf / cm2, which is higher than that of wall concrete. Therefore, a support 40 for supporting the pillar deck FD is separately installed and the pillar deck FD It is desirable not to dismantle. Therefore, in step (d), only the slab deck SD is first dismantled, and then the pillar deck FD is dismantled.

delete

delete

delete

Separated slab deck (SD) and the support 30 is reusable in the upper layer.

While the invention has been described in connection with the preferred embodiment as mentioned above, various modifications and variations are possible without departing from the spirit of the invention. Therefore, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

1 shows an embodiment of a support structure of a slab formwork.

2a to 2d is a view showing a step-by-step process of the construction method of the structure using the support structure of the slab formwork.

<Description of Major Symbols in Drawing>

WF: Wall Formwork SF: Slab Formwork

SD: Slab Deck FD: Pillar Deck

1: connecting piece 10: holder

12: opening 20: connecting plate

22: connector 30: support

32: engagement hole 40: support

50: connecting bar 52: long hole

60: concrete 70: fixing pin

72: connecting hardware

Claims (6)

Pedestal (10) formed with a quadrangular pipe shape respectively installed along the upper side of the facing wall formwork (WF), the opening 12 of the shape facing the mutual and the lower surface facing each other in the longitudinal direction or the bottom surface in a b-shaped shape (10) ); A connection plate 20 which is installed to be spaced apart at a predetermined interval along the length direction of the holder 10, and a side plate is coupled to an inner surface of the holder 10; A support (30) installed between the cradles (10) facing each other to support the slab formwork (SF); A support (40) installed at a lower portion of the support (30) to support the support (30); And, The long hole 52 is formed along the longitudinal direction, one end of which is pin-coupled to the connecting plate 20 through the long hole 52, and the other end or part of the longitudinal direction passes through the long hole 52 and the support 30. A connection bar 50 connected to the support 30 by the hardware 72 and rotatable based on the one end; It consists of, The lower end of both ends of the support 30 is chamfered, the support 30 is the support of the slab formwork (SF), characterized in that the height is adjusted according to the falling of the connection bar 50 according to the rotation of the connection bar (50). rescue. In claim 1, The support 30 includes a plurality of coupling holes 32 along the length direction of the support 30 to allow the connection of the hardware (72); Support structure of the slab formwork (SF), characterized in that formed. (a) installing the wall formwork (WF), and then installing the wall formwork (WF) on the inner side facing the cradle (10) of claim 1 coupled with the connecting plate (20) of claim 1; (b) While supporting the slab formwork (SF) between the mounting brackets 10 facing each other using the connecting bar 50 of claim 1, while installing the support 30 chamfering the lower ends of the support 30, Installing a plurality of supports 40 at the bottom to support the support 30; (c) Slab formwork (SF) consisting of a slab deck (SD) located at both ends of the support 30 and the pillar deck (FD) located between the slab deck (SD) is installed on the upper portion of the support (30) Next, pouring the concrete (60) constituting the slab and the wall; And, (d) demolding the wall formwork (WF) after curing of the concrete (60), removing the support (40) for supporting the slab deck (SD) and lowering the support (30), and then slab deck (SD). And dismantling the support 30; Construction method of the structure using the support structure of the slab formwork (SF), characterized in that consisting of. delete delete delete

Images