KR20130007502U - Apparatus for supporting forms for monowall construction and bracket for supporting foothold - Google Patents

Abstract

The present invention relates to a working wall support bracket coupled to a plywood support device, a plywood support. According to the plywood support device of the present application, the working scaffold support bracket coupled to the plywood support, even if the inclined support or the inclined support for supporting the ply wall support from the outside of the plywood support body is installed, the working scaffold support bracket can be easily It is possible to attach and detach the plywood support. Therefore, according to the plywood support device and the scaffold support bracket of the present application, the convenience of the plywood construction can be greatly increased.

Description

Brackets for scaffold support and clasp support {Apparatus for supporting forms for monowall construction and bracket for supporting foothold}

The present invention relates to a plywood support for supporting plywood formwork.

If the basement concrete structures such as apartments, officetels, residential complexes, and commercial buildings are plywood, weld and take form tie and T-bars on the plywood formwork and cast concrete inside the plywood formwork. A method of constructing plywood has been used. However, such a construction method requires a lot of work time and manpower because the work is required to fix the formwork by using a form tie and a T-bar on a reinforcing bar frame.

In order to solve this problem, a plywood support for supporting the plywood formwork in an outward direction may be used without fixing the plywood formwork to a form tie and a T-bar. This plywood support is often referred to as a solderer system, which does not require form tie and T-bar work, as is the case with conventional formwork. The advantage is that the release is very simple and quick.

If the height of the plywood to be constructed is increased, the height of the plywood supports must also be increased. If the height of the plywood supports is to be increased, a scaffold for the operator should be installed at the top of the plywood supports for concrete placement work inside the plywood formwork. In order to install the scaffold of the worker may be a separate scaffolding method, but this method is required to install the scaffold support directly on the plywood support because there is a problem that requires a lot of work time and personnel.

On the other hand, when the plywood support becomes higher, additional support for supporting the plywood support from the outside needs to be additionally installed. Since these supports occupy space while being combined with the plywood support, it is difficult to secure a space for installing the scaffold support for the worker. have.

In order to solve the above problem, one aspect of the present invention is to provide a plywood support device that can be installed very easily scaffold for the operator even when the height of the plywood wall is increased.

In order to achieve the above object, a plywood support device according to an embodiment of the present invention includes a vertical support disposed to extend vertically, detachably coupled to the vertical support, and positioned to face the opposite side of the formation position of the plywood wall. A first coupling part having one surface, a first member fixedly coupled to the one surface of the first coupling part, and extending horizontally in an opposite direction to a position where a wall is formed, and the first coupling part together with the first member A mounting portion fixedly coupled to the one surface and having an inclined surface positioned below the first member and inclined with respect to the one surface of the first coupling portion, and having one side connected to the mounting portion and the other side connected to the ground; And an inclined support which is provided, and a working scaffold disposed above the first member.

In addition, a hollow is formed in the inclined support, a protrusion is formed in the inclined surface of the mounting portion, and the protrusion may be inserted into the hollow of the inclined support when the inclined support is connected to the mounting portion.

In addition, the plywood support device, the second coupling portion detachably coupled to the vertical support and disposed below the first coupling portion, one side is coupled to the side of the first member, the other side of the second coupling portion It has a reinforcing member coupled to the side, the reinforcing member may be laterally offset relative to the first coupling portion and the second coupling portion to be located in a plane different from the inclined support.

Another aspect of the present invention provides a scaffold support bracket coupled to a vertical support of a plywood support device, wherein the scaffold support bracket of the plywood support device is detachably coupled to the vertical support and is opposite to a position where a plywood wall is formed. A first coupling part having one surface positioned to face the first side, a first side fixed to the one surface of the first coupling part, horizontally extending in an opposite direction to the joining wall formation position, and the first member The first coupling part may be fixedly coupled to the one surface and positioned below the first member, and may be provided with a mounting portion having an inclined surface inclined with respect to the one surface of the first coupling portion.

In addition, the inclined surface of the mounting portion may be formed with a protrusion for coupling with the inclined support connecting the mounting portion and the ground.

In addition, the scaffold support bracket of the plywood support device, the second coupling portion detachably coupled to the vertical support and disposed on the lower side of the first coupling portion, one side is coupled to the side of the first member and the other side is The reinforcing member is coupled to the side of the second coupling portion, and the reinforcing member may be positioned to be laterally offset with respect to the first coupling portion and the second coupling portion to be located on a plane different from the inclined support.

According to the plywood support device according to an embodiment of the present invention, even if the height of the plywood wall can be installed very easily scaffold for the operator.

In addition, according to the scaffold support bracket of the plywood support device according to an embodiment of the present invention, it is advantageous in terms of weight reduction and cost reduction of the scaffold support bracket.

1 is a schematic perspective view of a plywood support device according to an embodiment of the present invention.
FIG. 2 is a schematic perspective view of a portion of the plywood support device of FIG. 1 separated from each other; FIG.
FIG. 3 is a view schematically illustrating a use form of the plywood support device of FIG. 1.
4 is a view schematically showing the shape of the plywood support for supporting the plywood formwork when the plywood is high.
FIG. 5 is a perspective view schematically illustrating that the scaffold support bracket of FIG. 2 is installed on the plywood support of FIG. 4. FIG.
6 is a perspective view schematically showing a part of a plywood support device according to another embodiment of the present invention.

Hereinafter, a plywood support apparatus according to an embodiment of the present invention will be described with reference to the drawings.

1 is a schematic perspective view of a plywood support device according to an embodiment of the present invention. As shown in FIG. 1, the plywood wall may be constructed to form the wall surface of the underground structure. To construct the plywood wall, the reinforcing frame (S) of the plywood wall is erected in front of the cut surface or other underground wall surface (W), the formwork (P) is installed in front of the reinforcing steel frame (S), and then the inner space of the formwork (P) Cast concrete to (C). At this time, the plurality of plywood support devices 10 are installed on the outside of the formwork P so that the formwork P can support the side pressure of the concrete, and to support the formwork P between the plywood support devices 10. A plurality of bars B extending in the horizontal direction are disposed between the plywood support device 10 and the formwork. At this time, the formwork (P), bar (B), the plywood support device 10 may be fastened by various methods such as bolting, wire bundles so as to maintain a coupled state.

Referring to FIG. 1, the plywood support device 10 of the present embodiment includes a plywood support body 100 and a scaffold support bracket 20.

The plywood support body 100 is installed upright to support the plywood formwork (P), is provided in plurality to support the entire plywood formwork (P) is arranged side by side at intervals of about 60 cm.

The lower side of the plywood support body 100 is formed with a fitting hole for fitting the anchor 140 is fixed to the floor. The anchor 140 is fitted to the plywood support body 100 so that its end is exposed. A screw is fastened to the exposed end of the anchor 140 so that the plywood support body 100 can be stably fixed. On one side or both sides of the plywood support body 100, a hole 102 for fitting the coupling pin 310 along the vertical direction is drilled.

The plywood support body 100 is a horizontal support 110 protruding in a direction away from the plywood formwork P, the plywood support body 100 and the horizontal support 110 so as to effectively support the lateral pressure of the concrete during the pouring of concrete. It is provided with an inclined support 130, which is disposed obliquely between, the inner support 120 is disposed between the inclined support 130 and the plywood support body 100. The specific shape of the plywood support body 100 may be changed by the load and weight of the plywood support body 100 required to support the plywood support.

The scaffold support bracket 20 is coupled to the plywood support body 100 and is reinforced between the first member 210, the second member 220, the first member 210 and the second member 220. The member 230, the first coupling part 240, the second coupling part 250, and the clamp 245 are provided.

The first member 210 is provided to provide a space in which the working scaffold is mounted, and is disposed to protrude in a direction perpendicular to the plywood formwork P. The rod coupling portion 212 for fitting the vertical rod 400 is disposed near the opposite end of the haptic support body 100 of the first member 210. The vertical rod 400 is detachably coupled to the rod coupling portion 212 and may be coupled to the rod coupling portion 212 in various forms such as twist coupling, screw coupling, and fit coupling.

The second member 220 is obliquely coupled to the lower side of the first member 210 and serves to support the first member 210.

The reinforcing member 230 is coupled between the first member 210 and the second member 220 to further strengthen the coupling of the first member 210 and the second member 220. That is, the reinforcing member 230 may effectively increase the rigidity of the scaffold support bracket 20 without significantly increasing the weight of the scaffold support bracket 20. If the first member 210 and the second member 220 are coupled with sufficient strength to support the load of the worker, the reinforcing member 230 may not be required unlike the present embodiment.

The first coupling part 240 is coupled near an end portion of the main body side of the wall of the first member 210, but is not coupled to the first member 210 in the extending direction of the first member 210. Is coupled to the side of 210. As such, since the first coupling part 240 is coupled to the side surface of the first member 210, the first member 210 is positioned on a plane different from the plane formed by the plywood support body 100. The first coupling portion 240 has a 'c' shape so that the plywood support body 100 can be fitted inside, and a hole 242 is formed at a side surface thereof.

FIG. 2 schematically shows that the scaffold support bracket 20 is separated from the plywood support body 100. As shown in FIG. 2, the first coupling part 240 of the scaffold support bracket 20 is The first of the bracket support bracket 20 by being fitted to the plywood support body 100 and then fitting the coupling pin 310 into the hole 252 of the scaffold support bracket 20 and the hole of the plywood support body 100. The coupling part 240 may be coupled to the plywood support body 100.

The second coupling part 250 is coupled to the vicinity of the end portion of the side of the main wall support body 100 of the second member 220, and like the first coupling part 240 is coupled to the side of the second member 220. The second coupling part 250 may also be formed in a 'c' shape so that the plywood support body 100 may be fitted therein. As described above, since the first coupling part 240 and the second coupling part 250 are coupled to the side surfaces of the first member 210 and the second member 220, the first member 210 and the second member 220. And the reinforcing member 230 is laterally offset from the plywood support body 100 even when the scaffold support bracket 20 is coupled to the plywood support body 100. That is, since the first member 210, the second member 220, and the reinforcement member 230 of the scaffold support bracket 20 are not disposed on the same plane as the inclined support 130 of the plywood support body 100. In addition, even if the scaffold support bracket 20 is installed on the plywood support body 100, the inclination support 130 of the plywood support body 100 is not caused to interfere.

A hole 252 for fitting the coupling pin 310 to the side of the second coupling portion 250 is formed. However, the coupling pin 310 does not necessarily need to be fitted into the hole 252 of the second coupling part 250. The second coupling part 250 may stably maintain a state in which the second coupling part 250 is in close contact with the main body of the plywood supporter 100 due to the weight of the scaffold support bracket 20 and an operator working on the upper side of the scaffold support bracket. Because there is. However, in order to couple the second coupling part 250 to the plywood support body 100 more stably, the second coupling part 250 may also need to be coupled to the plywood support body 100 with a pin. In contrast, the interval between the hole 242 of the first coupling part 240 and the hole 252 of the second coupling part 250 is an integer multiple of the interval of the hole 102 formed in the main body 100 of the plywood wall. desirable.

The clamp 245 is configured in such a way that the first coupling part 240 presses the support wall main body 100 as the handle is rotated so that the first coupling part 240 can be more stably fixed to the support wall main body 100. The clamp may be provided with a contact press portion that can be retracted from the support wall body 100 according to the rotation of the handle so that the clamp 245 may press the support wall body 100 according to the rotation of the handle. As such, after the first coupling part 240 is inserted into the support wall body 100, the handle of the clamp 245 is rotated so that the support wall body main body 100 and the first coupling part 240 may be firmly fixed. In addition, even when the size of the plywood support body 100 is reduced, the working scaffold support bracket 20 may be stably fixed so as not to be rattled.

3 schematically illustrates the installation of the working scaffold 430 on the plywood support device 10 of the present embodiment. As shown in FIG. 3, by placing the work scaffold 430 on the scaffold support bracket 20 of the plywood support device 10 of the present embodiment, the work scaffold 430 is easily installed without a separate scaffold installation work. You can complete the task. In addition, in order to prevent the fall of the operator or tool in the working footrest 430, the vertical rod 400 may be coupled to the foothold support bracket 20 of the present embodiment, and the net 420 may be installed on the vertical rod 400. . In addition, since the plywood support device 10 of the present embodiment is also very easy to separate the scaffold support bracket 20 from the plywood support body 100, the release of the plywood support device 10 may also be performed very quickly with little manpower. Can be.

In addition, the scaffold support bracket 20 of the present embodiment can be made very easy to move up and down with respect to the plywood support body 100. Therefore, even when it is necessary to change the height of the scaffold, it can cope very quickly. In particular, since the foothold support bracket 20 of the present embodiment does not interfere with the inclined support 130 of the plywood support body 100, the up / down position can be adjusted regardless of the presence and the inclination of the inclined support 130.

On the other hand, when the height of the construction wall is increased to more than 3 m or 4 m it is necessary to extend the plywood support body 100 in the height direction, which is possible by additionally coupling the extension support to the plywood support body 100. .

4 is a side view schematically showing the extension support inserted into the plywood support body 100, and referring to FIG. 4, the extension support 500 is fitted inside the plywood support body 100 and the plywood support body ( A hole corresponding to the hole of 100 is formed. Therefore, the extension support 500 and the plywood support body 100 may be fixed to each other with a pin, the protruding length of the extension support 500 is adjustable.

When the extension support 500 is fitted to the plywood support body 100 as shown in FIG. 4, an additional inclined support 600 needs to be installed so that the extension support 500 can stably support the load. The additional inclined support 600 is fixed to the extension support 500 by one side is fixed to the ground and the other side is fixed to the extension support 500.

A portion 510 is provided to protrude so that the additional inclined support 600 can be stably mounted on the portion in contact with the additional inclined support 600 in the extension support 500. In general, the additional inclined support 600 is formed in the form of a hollow rod, the mounting portion 510 may be provided with a coupling protrusion 512 to be fitted to the additional inclined support 600.

5 is a diagram schematically showing that the footrest support bracket 20 is installed on the extension support 500. As shown in FIG. 5, even if the additional inclined support 600 is installed in the extension support 500, the scaffold support bracket 20 of the present embodiment can be easily installed without interference with the additional inclined support 600.

In addition, as shown in FIG. 5, when a plurality of holes 502 for engaging the coupling pin 310 are formed on the side of the extension support 500, the footrest support bracket 20 is easily changed in the up and down position. You can. Even in this case, since it is not limited by interference and installation space due to the installation of the additional inclined support 600, according to the plywood support device 12 of the present embodiment, the freedom of installation of the scaffold support bracket 20 may be very high. have. That is, it has an excellent effect that the height of the working scaffold can be changed very easily according to the construction environment.

Next, the plywood support device 14 according to another embodiment of the present invention will be described with reference to the drawings.

6 is a view schematically showing a plywood support device 14 according to another embodiment of the present invention.

Referring to FIG. 6, the plywood support device 14 of the present embodiment includes a plywood support body 100, an extension support 500, and a scaffold support bracket 70. Since the plywood support body 100 and the extension support 500 of the present embodiment are the same as described above, redundant description thereof will be omitted.

The scaffold support bracket 70 includes a first member 710, a second member 720, a reinforcing member 730, a first coupling part 740, and a second coupling part 750.

The first member 710 is a place where the working scaffold is mounted, is arranged to protrude in the opposite direction of the wall from the plywood support body 100. An end portion of the first member 710 is provided with a coupling portion 712 for coupling the vertical rods to make the handrail. If the coupling between the vertical rod and the coupling portion 712 is a removable form, any of twist lock, fit, screw coupling, etc. can be.

The second member 720 is disposed between the first member 710 and the sump support body 100 or the extended support 500 to support the lower side of the first member 710. A coupling protrusion 722 is formed on a lower surface of the second member 720, and an additional inclined support 600 may be inserted into and coupled to the coupling protrusion 722.

On the other hand, the scaffold support bracket 70 of the present embodiment has been described as an example that is coupled to the extension support 500, but enough space for the scaffold support bracket 70 to be installed in the plywood support body 100 If secured may be coupled to the pass support body 100.

The reinforcing member 730 is disposed between the first member 710 and the second member 720 to increase the rigidity of the scaffold support bracket 70.

The first coupling part 740 is formed in a 'c' shape to fit the plywood support body 100 or the extension support 500 therein, unlike the footrest support bracket 70 of the embodiment of FIG. It is coupled to the first member 710 in the extending direction of the first member 710. That is, in the case of the foothold support bracket 70 of the present embodiment, the first member 710 and the first coupling part 740 are disposed on the same straight line. Holes are formed on the side surfaces of the first coupling part 740 so as to correspond to the holes 102 and 502 of the plywood support body 100 or the extension support 500, and the coupling pins 310 are fitted therein so that the first coupling parts are fitted. 740 and the plywood support body 100 or extension support 500 may be combined.

The second coupling part 750 and the plywood support body 100 are also formed in a 'c' shape to fit the plywood support body 100 or the extension support 500 therein, and are the same as the second member 720. Placed on board. Therefore, when the footrest support bracket 70 of the present embodiment is coupled to the plywood support body 100 or the extension supporter 500, the plywood supporter body 100 is disposed on the same plane as the plane of the plywood supporter body 100.

On the other hand, when the height of the plywood support device of the present embodiment is increased and it is necessary to install the additional inclined support 600, the additional inclined support 600 may be opposed to the second member 720 of the scaffold support bracket 70. In this case, the additional inclined support 600 may be fitted to the protrusion of the footrest support bracket 70. In this way, since the additional inclined support 600 does not need to be directly applied to the extended support 500 by applying the inclined support 600 to the footrest support bracket 70, the additional inclined support 600 and the footrest support bracket The interference of 70 does not occur. Therefore, the installation of the footrest support bracket 70 and the additional inclined support 600 can be performed much more easily than in the prior art. After the footrest support bracket 70 and the additional inclined support 600 are both installed, the footrest for work can be easily installed by placing the footrest on the foothold support bracket 700.

Next, a plywood support device according to another embodiment of the present invention will be described with reference to the drawings.

7 is a view schematically showing a part of the plywood support device according to another embodiment of the present invention, and more specifically, a diagram showing a portion of the scaffold support bracket of the plywood support device. 8 is a schematic side view of a plywood support device according to still another embodiment of the present invention.

7 and 8, the sump support device 16 of the present embodiment includes a sump support body 100, an extension support 500, and a footrest support bracket 80. Since the plywood support body 100 and the extension support 500 of the present embodiment are the same as those of the above-described embodiment, redundant description thereof will be omitted.

The scaffold support bracket 80 is coupled to the extension support 500 and coupled to the plywood support body 100, and extends in the horizontal direction from the plywood support body to provide a space on which the working scaffold can be mounted.

The scaffold support bracket 80 includes a first coupling part 840, a first member 810, and a mounting part 820.

The first coupling portion 840 is a portion that is coupled to the extension support 500, the hole is formed in a position corresponding to the hole 502 formed in the extension support 500, the pin 310 is inserted into the hole The extension support 500 may be kept in a coupled state. The first coupling part 840 may include a plurality of pin holes for stable coupling with the extension support 500.

The first member 810 is fixedly coupled to one surface of the first coupling part 840 facing the opposite side of the position where the first wall 840 is formed, and protrudes perpendicularly to the extension direction of the extension support 500. The first member 810 is provided with a rod coupling portion 712 at the end of the first member 810 can be coupled to the vertical rod 400 for the mounting of the net (not shown). The first member 810 may be formed in an empty form so as to reduce the weight of the scaffold support bracket 80.

The mounting portion 820 is a portion that is connected to the end of the inclined support 600, is coupled to the first coupling portion 840, is located directly below the first member 810. The mounting portion 820 has an inclined surface which is formed to be inclined with respect to one surface of the first coupling portion 840 to which it is fixed, the surface of which faces the additional inclined support 600. The surface facing the additional inclined support 600 in the mounting portion 820 is a direction intersecting the extending direction of the additional inclined support 600, more preferably, a direction close to the direction perpendicular to the extending direction of the additional inclined support 600. It is formed to be inclined. In addition, a protrusion 822 for fitting into the hollow of the additional inclined support 600 is provided on a surface of the mounting part 820 that faces the additional inclined support 600.

Thus, in the footrest support bracket 80 of the present embodiment, since the mounting portion 820 is disposed directly below the first member 810 and at the same time connected to one end of the additional inclined support 600, the first member 810 ) And the additional inclined support 600 may be arranged in the same plane.

As such, the scaffold support bracket 80 of the present embodiment does not have a configuration corresponding to the second member 220 of the above-described embodiment even if the first member 810 and the additional inclined support 600 are disposed on the same plane. By not installing the additional inclined support 600, there is no part causing interference with this. Therefore, the additional inclined support 600 can be installed very easily.

In addition, since the support bracket 80 according to the present embodiment does not include a member located on the side of the additional inclined support 600, when the flange 602 is largely formed at the end of the additional inclined support 600. In addition, the flange 602 of the additional inclined support 600 is not caught by the scaffold support bracket 80. Therefore, even if the flange 602 is formed somewhat larger in the additional inclined support 600, there is no difficulty in installing the additional inclined support 600.

In addition, the scaffold support bracket 80 of the present embodiment has a smaller number of parts and a smaller size than the scaffold support brackets 20 and 70 of the above-described embodiment, thereby effectively reducing installation effort and manufacturing cost. . As a result, in the case of employing the plywood support device 16 according to the present embodiment in the construction site, it is possible to reduce the construction cost, and also to obtain an excellent effect that can be improved along with workability.

On the other hand, when the footrest support bracket 80 of the present embodiment needs to be reinforced to withstand a large load, a separate reinforcement member may be further provided.

FIG. 9 is a perspective view schematically showing that a reinforcing member is further added to the scaffold support bracket 80 of FIG. 7.

Referring to FIG. 9, the scaffold support bracket 81 of the present embodiment further includes a reinforcing member 835 supporting the first member 810 of the scaffold support bracket 80 of FIG. 7 from below. One side of the reinforcing member 835 is fixedly coupled to the side of the first member 810, the other side is fixedly coupled to the side of the second coupling portion 830 is coupled to the extension support 500. As such, the reinforcing member 835 is disposed on the side surfaces of the first member 810 and the second coupling part 830 to be laterally offset from the first coupling part 840, such that the reinforcing member 835 is mounted on the mounting part 820. It is arranged in a plane different from). Therefore, even when the additional inclined support 600 is coupled to the mounting part 820, the reinforcing member 835 does not cause interference with the additional inclined support 600. Therefore, the scaffold support bracket 81 of FIG. 9 may not only support a larger load by supporting the first member 810 but also interfere with installing an additional inclined support 600. It is easy to work without.

The second coupling portion 830 is formed in a 'c' shape is fitted to the extension support 500, the second coupling portion 830 may be coupled to the extension support 500 by a pin. The second coupling part 830 may be coupled to the extension support 500 with a pin, and the second coupling part 830 may be stably fixed to the extension support 500. However, the second coupling part 830 may not be fixed to the extension support 500 with a pin, but may simply be fitted to the extension support 500. Even in this case, the second coupling part 830 may not be separated from the extension support 500 by the weight of the scaffold support bracket 81.

Next, the scaffold support bracket 90 of the plywood supporter according to another embodiment of the present invention will be described.

FIG. 10 is a perspective view schematically showing a scaffold support bracket 90 according to another embodiment of the present invention. The foothold support bracket 90 of FIG. 10 may also be employed in the plywood support device similarly to the foothold support brackets 20, 70, and 80 described above.

Referring to FIG. 10, the scaffold support bracket 90 of the present embodiment includes a first coupling part 940, a first member 910, and a mounting part 920.

The first coupling portion 940 is formed of the letter 'c' is fitted into the extension support 500 is coupled. The first coupling part 940 may be fixed to the extension support 500 by the pin 310.

The first member 910 is for mounting the working scaffold, is disposed on the side of the first coupling portion 940. The first member 910 may be provided with a vertical rod coupling portion to be coupled to the vertical rod for the net installation. In addition, a hole for the pin 310 to be inserted into the first member 910 so that the pin 310 inserted into the first coupling part 940 passes through the extension support 500 and then fits into the first member 910. This can be formed.

As such, in the present embodiment, since the first member 910 is disposed on the side of the first coupling part 940, it is not necessary to form the first coupling part 940 long in the vertical direction. In other words, since the first member 810 is located at the side of the first coupling part 940, the foothold support bracket 80 of the present embodiment has a first coupling part 740, as shown in the foothold support bracket 70 of FIG. 7. Compared to the case where the first member 710 and the mounting portion 820 are to be installed together on one surface of the bottom surface, the length of the vertical direction can be shortened. Therefore, the support bracket 80 of the present embodiment can reduce the size of the first coupling portion 840, which is more advantageous in weight reduction and cost reduction.

Mounting unit 920 is disposed on the front of the first coupling portion 940, is formed to be inclined so that one side of the additional inclined support 600 can be connected. Since the mounting portion 920 is disposed in a plane different from the first member 910, the interference between the additional inclined support 600 and the first member 910 in the process of installing the additional inclined support 600 on the mounting portion 920. This does not happen. Therefore, the scaffold support bracket 90 of the present embodiment may further facilitate the manufacturing process of the plywood support device.

On the other hand, the footrest support bracket of the present embodiment may further include a separate reinforcing member to support a larger load.

FIG. 11 is a perspective view schematically illustrating that the scaffold support bracket of FIG. 10 further includes a reinforcing member.

Referring to FIG. 11, the scaffold support bracket 91 of the present embodiment has a first coupling part 940, a first member 910, and a mounting part 920 like the scaffold support bracket 90 of FIG. 10. In addition, the second coupling portion 930 and the reinforcing member 935 is further provided. Since the first coupling part 940, the first member 910, and the mounting part 920 are the same as described above, redundant description thereof will be omitted.

The second coupling part 930 is disposed below the first coupling part 940 and is coupled to the extension support 500. The second coupling part 930 may be coupled to the extension support 500 by a pin, but the second coupling part 930 may be simply inserted into the extension support 500 without the pin.

The reinforcing member 935 supports the load applied to the first member 910 together with the first member 910 so that one side of the first member 910 is coupled to the lower side and the other side is the second coupling. Coupled to the unit 930. Therefore, the scaffold support bracket 91 of this embodiment can support a larger load than the scaffold support bracket 90 of FIG. Additional reinforcing bars 936 may be provided for more stable coupling of the reinforcing member 935 and the first member 910.

In addition, the reinforcing member 935 is coupled to the side of the second coupling portion 930 to be located in a plane different from the mounting portion 920. Therefore, the reinforcing member 935 does not cause interference with the additional inclined support 600 coupled to the mounting portion 920. Therefore, the plywood support device provided with the scaffold support bracket 91 of the present embodiment may have a simple construction.

The plywood support devices 10, 12, 14, 16, and 18 and the scaffold support brackets 20, 70, 80, 81, 90, and 91 that can be installed therein have been described above. However, the present invention is not limited thereto and may be embodied in various forms within the technical scope of the present invention.

For example, in the above embodiment, the coupling pin 310 is inserted into the holes 102 and 252 in order to couple the scaffold support bracket 20 to the plywood support body 100, but the scaffold support bracket 20 is described. The coupling method to the plywood support body 100 may be any one such as bolting, clamping, and fitting coupling.

In addition, in the above-described embodiment, the first coupling parts 240 and 740 and the second coupling parts 250 and 750 of the scaffold support brackets 20 and 70 are coupled to either side of the plywood support body 100 or the extension support 500. Although described as being different, the first coupling portion 240,740 of the scaffold support bracket (20,70) is coupled to the extension support 500 and the second coupling portion (250,750) is coupled to the plywood support body (100) Footrest support brackets 20 and 70 may be installed in the form.

In addition, the plywood support device 10, 12, 14, 16, 18 of the above-described embodiment has been described as having a separate plywood support body 100 and the extension support 500, but the plywood support device of an embodiment of the present invention It may be provided with only the plywood support body 100 without an extension support. In this case, the scaffold support brackets 20, 70, 80, 81, 90, and 91 may be directly coupled to the plywood support body 100.

In addition, a coupling protrusion for coupling with the additional inclined support 600 may also be provided on the lower surface of the second member 220 of the scaffold support bracket 20 of FIG. 1. When the engaging projection is provided on the scaffold support bracket 20 of FIG. 1, one side of the additional inclined support 600 may be selectively coupled to the extension support 500 or the scaffold support bracket 20, thereby providing construction conditions. Accordingly, the degree of freedom for installation of the additional inclined support 600 may be greatly increased.

In addition, in the above-described embodiment, the combination of the extension support 500 or the scaffold support bracket (70, 80, 81, 90, 91), and the additional inclined support 600 is combined projections (512, 722, 822, 922) additional inclined support (600) Although it is described as being made by fitting), the combination of the extension support 500 or the foot support bracket (70, 80, 81, 90, 91) and the additional inclined support 600 can be any removable form. Do.

In addition, in the above-described embodiment, the additional inclined support 600 is described as being fitted to the protrusions 722, 822 and 922 of the scaffold support brackets 70, 80, and 90. Alternatively, protrusions are formed at the end of the additional inclined support 600. In addition, a groove for accommodating the protrusion of the additional inclined support 600 may be formed in the scaffold support bracket.

In addition, the present invention can be embodied in various forms, of course.

10,12,14,16,18 ... plywood support device
20, 70, 80, 81, 90, 91 ... foot support bracket
100 ... plywood support body

Claims (6)

A vertical support disposed to extend vertically,
A first coupling part detachably coupled to the vertical support, the first coupling part having one surface positioned to face the opposite side of the position where the plywood wall is formed;
A first member fixedly coupled to the one side of the first coupling part and horizontally extending in a direction opposite to a formation position of the wall;
A mounting part fixedly coupled to the one surface of the first coupling part together with the first member and positioned below the first member and having an inclined surface inclined with respect to the one surface of the first coupling part;
One side is connected to the mounting portion and the other side is inclined support connected to the ground,
A plywood support device having a working scaffold disposed above the first member. The method of claim 1,
The inclined support is hollow is formed,
Protruding portion is formed on the inclined surface of the mounting portion,
The protruding portion
The plywood support device inserted into the hollow of the inclined support when the inclined support is connected to the mounting portion. 3. The method of claim 2,
A second coupling part detachably coupled to the vertical support and disposed under the first coupling part;
One side is coupled to the side of the first member, the other side is provided with a reinforcing member coupled to the side of the second coupling portion,
The reinforcing member,
And a haptic wall support device positioned laterally offset with respect to said first and second engagement portions so as to be in a plane different from said inclined support. A scaffold support bracket coupled to a vertical support of a plywood support device,
A first coupling part detachably coupled to the vertical support, the first coupling part having one surface positioned to face the opposite side of the position where the plywood wall is formed;
A first member fixed to the one surface of the first coupling part and horizontally extending in a direction opposite to a formation position of the plywood wall;
And a mounting portion fixedly coupled to the one surface of the first coupling portion together with the first member and positioned below the first member and having an inclined surface inclined with respect to the one surface of the first coupling portion. ,
Scaffolding support bracket for plywood support. 5. The method of claim 4,
On the inclined surface of the mounting portion,
Protruding portion is formed for coupling with the inclined support connecting the mounting portion and the ground,
Scaffolding support bracket for plywood support. The method of claim 5,
A second coupling part detachably coupled to the vertical support and disposed under the first coupling part;
One side is coupled to the side of the first member, the other side is provided with a reinforcing member coupled to the side of the second coupling portion,
The reinforcing member,
Footrest support bracket of the plywood support device positioned to be laterally offset with respect to the first coupling portion and the second coupling portion to be located in a plane different from the inclined support.

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