KR200467326Y1 - supporting device of aluminum form - Google Patents

Abstract

The present invention is in close contact with the support surface of the support which is dropped along the guide projection protruding from the support piece of the support bracket, the rectangular support located in the horizontal direction along the horizontal length direction of the aluminum foam on the bottom of the aluminum foam installed for the retaining wall construction Therefore, the rectangular support can be firmly fixed to the lower end of the aluminum foam, and the configuration such as the fastener can be omitted, and the support can be fastened by dropping the support immediately without tightening the fastener. As a result, it is possible to improve the fastening property between the bottom of the aluminum foam and the square support, and to shorten the working time, thereby greatly improving the work efficiency according to the overall installation of the aluminum foam. Not only improves support, but also firmly withstands lateral forces due to concrete pouring. The aluminum foam is pushed outward to provide a lower support bracket of aluminum foam that can prevent the entire wall from being uneven and uneven after the concrete is hardened.
To this end, the present invention, the aluminum support 1 is installed at a lower end of the retaining wall aluminum foam (1) at a predetermined interval and positioned horizontally along the longitudinal direction of the lower end of the aluminum foam (1). In the support bracket for firmly supporting the bottom of the aluminum foam (1) by tightly fixed to), it protrudes in the vertical direction to the upper side of the bottom surface 11 and the bottom surface 11 in the horizontal direction and guides the top A body 10 formed with a support piece 13 protruding from the protrusion 12; A pin coupler 20 protruding to an upper side of the bottom surface 11 of the body 10 and having a pin hole 21 therethrough; The two sliding surfaces 31 and 31 respectively positioned on both sides of the support piece 13 and the two sliding surfaces 31 and 31 are connected to each other such that the support piece 13 is drawn inwardly, The support surface 32 which is in close contact with one surface of the support 2 and the guide hole 33 through which the guide protrusion 12 of the support piece 13 fits through the upper and lower longitudinal directions of the sliding surface 31 are formed therethrough. The support 30 is included.

Description

Supporting device of aluminum form

The present invention relates to a lower support bracket of an aluminum foam, and more particularly, to simplify the configuration of the support bracket for firmly supporting the lower end of the aluminum foam to be constructed and to be positioned horizontally on the lower end of the aluminum foam to the bottom of the aluminum foam The aluminum foam which is in close contact with the rectangular support and slides down inclined with respect to the support bracket so as to improve contact and adhesion with the rectangular support to greatly improve the installation firmness and support for the aluminum foam. It is related to the lower support bracket.

In general, formwork is used to install a building, which serves to maintain a defined shape and dimensions during concrete hardening, to prevent leakage of moisture until the concrete hardens, and to protect it from the effects of outside air. It is a hypothesis to be dismantled after hardening.The formwork requirement is that there is not enough strength and deformation to withstand various external forces (concrete load and dynamic load), and it must have precision and water solubility that shape and dimension can be maintained accurately. The material cost should be low and economical by repeated use. It should be easy to process, assemble and dismantle, be light for transportation, handling and loading, and the material should be easy to clean and repair.

Such formwork forms a frame for concrete placement by assembling a similar unit panel. Typical typical methods include euro foam, aluminum foam, and plywood formwork.

However, when installing the wall of the building by installing the conventional formwork as a separate subsidiary material, using the horizontal frame such as plywood or lath net to prevent the lower part of the euro-foam or aluminum foam, and at the same time, the inconvenience of work that has to be leveled there was.

In addition, the lumber was pushed outwards because it could not endure the lateral force due to the concrete pouring, and after the concrete was hardened, there was a problem that the whole wall was not uniform and the wall was uneven. There was a problem that the dismantling process is increased.

On the other hand, in order to solve the problem of the conventional formwork has been devised a formwork bottom support device for adjusting the installation position of the aluminum foam, which is a public utility model No. 20-2010-0009973, which is fixed to the floor of the slab floor fixing plate and the floor In the formwork bottom support device having a plurality of support rods formed on both sides of the fixed plate facing each other and installed to enable the forward and backward operation toward the aluminum foam, and to support the angle support that is connected to the lower end of the aluminum foam A plurality of front brackets fixedly attached to each of the front both sides of the bottom fixing plate, a lower bolt connected to the pin shaft of each of the plurality of front brackets so as to be rotatable and movable, and a fastening hole formed at a side of the aluminum foam The binding pin is inserted into the upper bolt protruding to one side of the free end, and It consists of a bolt portion and a top threaded bolt, respectively right and left handed screw portion and the left handed screw nut right cylindrical plurality of turnbuckles, which comprises a cylinder that is fixedly mounted on both ends of each nut being formed in the assembly.

However, in the case of the prior art, the structure is complicated, and accordingly, not only the manufacturing cost is high, but also the construction of the wall or retaining wall takes a long time, and the construction cost is high, and it is difficult to install the pouring wall in a straight line. The wall or retaining wall is zigzag, and in severe cases, when the concrete mortar is poured between a pair of pouring walls, the crushing wall is transformed into zigzag, so the concrete mortar leaks to the outside of the pouring wall and leaks after curing. Since there are many problems, such as a large construction cost is required to be removed.

Accordingly, the present applicant has devised a device for installing the lower portion of the retaining wall aluminum foam in a straight line, which is a Patent Publication No. 10-2011-0107310, which is to support the first or second rectangular bar-shaped body of the retaining wall aluminum foam A first support bracket installed at a predetermined interval at a lower end, and installed in a space formed by the support bracket and the aluminum foam and having four sides recessed in an arc shape along a longitudinal direction to support the lower ends of the plurality of aluminum foams in a straight line; The lower end of the aluminum foam was able to be firmly supported by the second rectangular bar-shaped body in which the rectangular bar-shaped body or four sides were bent toward the center of the second rectangular bar-shaped body.

Republic of Korea Registered Utility 20-0163444 (registered on October 1, 1999) Republic of Korea public practice 20-2010-0009973 (2010.10.12 public) Republic of Korea Patent Publication No. 10-2011-0107310 (2011.09.30 published)

The present invention is an improvement of the support bracket which is one of the components of the Patent Publication No. 10-2011-0107310 proposed by the applicant, can lead to a reduction in the production cost by a simple configuration and support close contact with the rectangular support The support is made by the support that slides inclined against the bracket so that the square support is firmly adhered to the bottom of the aluminum foam so that the bottom of the aluminum foam can be firmly supported and fixed. The object is to provide a bottom support bracket of aluminum foam that can be greatly improved.

The lower support bracket of the aluminum foam of the present invention as a means for achieving the above object, the rectangular support is installed at a lower end of the retaining wall aluminum foam at a predetermined interval and positioned horizontally along the lower longitudinal direction of the aluminum foam. A support bracket for firmly fixing the aluminum foam and firmly supporting the bottom of the aluminum foam, the support bracket having a horizontal bottom surface and a support piece protruding vertically toward the upper side of the bottom surface and protruding with a guide protrusion on the top. Wow; A pin coupler protruding toward an upper side of the bottom surface of the body and having a pin hole; The two sliding surfaces and the two sliding surfaces are respectively located on both sides of the support piece so that the support piece is drawn inwardly, and the support surface is in close contact with one surface of the square support and the upper and lower lengths of the sliding surface are perforated. It comprises a support hole through which the guide hole through which the guide projection of the support piece is fitted.

The guide hole through which the guide projection of the support piece is inserted in the longitudinal direction of the upper and lower parts of the sliding surface is formed to be tapered to be inclined toward the pin engaging port projecting toward the upper side of the bottom surface of the body.

In addition, an upper portion of the two sliding surfaces of the support is further provided with a prevention pin for connecting the two sliding surfaces to prevent the support from being separated from the support piece.

In addition, the guide hole of the support is formed to further extend the arc-shaped rotating portion in which the guide projection is accommodated to rotate the support relative to the support piece.

The present invention is in close contact with the support surface of the support which is dropped along the guide projection protruding from the support piece of the support bracket, the rectangular support located in the horizontal direction along the horizontal length direction of the aluminum foam on the bottom of the aluminum foam installed for the retaining wall construction Therefore, the rectangular support can be firmly fixed to the lower end of the aluminum foam, and the configuration such as the fastener can be omitted, and the support can be fastened by dropping the support immediately without tightening the fastener. As a result, it is possible to improve the fastening property between the bottom of the aluminum foam and the square support, and to shorten the working time, thereby greatly improving the work efficiency according to the overall installation of the aluminum foam. Not only improves support, but also firmly withstands lateral forces due to concrete pouring. The aluminum foam is pushed outwards to prevent the entire wall from being uneven and uneven after the concrete has cured.

1 is a perspective view of the aluminum foam is installed by the lower support bracket of the present invention aluminum foam.
Figure 2 is an exploded perspective view showing the configuration of the lower support bracket of the aluminum foam of the present invention.
Figure 3 is a block diagram showing a state before the lower support bracket of the aluminum foam of the present invention is in close contact with the square support.
Figure 4 is a configuration of the support of the lower support bracket of the aluminum foam of the present invention is rotated.
Figure 5 is a schematic view showing the installation state of the lower support bracket of the present invention aluminum foam.
Figure 6 is a block diagram showing the bottom configuration of the aluminum foam installed by the lower support bracket of the present invention aluminum foam.

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the terms or words used in the present specification and claims are to be construed in accordance with the spirit of the present invention, on the basis that the inventor can properly define the concept of a term in order to best illustrate its own design It should be construed as meaning and concept consistent with the technical idea of.

Figure 2 shows the bottom support bracket of the aluminum foam of the present invention, as shown is installed at a lower distance to the bottom of the retaining wall aluminum foam (1) and horizontally along the bottom longitudinal direction of the aluminum foam (1) It relates to a support bracket for firmly supporting the lower end of the aluminum foam (1) by firmly fixing the rectangular support (2) positioned in the aluminum foam (1).

The lower support bracket of the aluminum foam of the present invention, the body 10, the pin coupling hole 20 provided in the body 10, and consists of a support 30 connected to the body (10).

As shown in FIG. 2, the body 10 protrudes in a vertical direction toward the upper side of the bottom surface 11 and the bottom surface 11 in a horizontal direction, and a support piece 12 protrudes from the top ( 13) is formed.

The support piece 13 protruding to the upper side of the bottom 11 in the horizontal direction, the lower end is welded to the upper side of the bottom 11 of the horizontal square by welding, the upper side of the bottom 11 Is fixed to.

In addition, the guide protrusion 12 protruding from the upper portion of the support piece 13 may also be welded to the upper portion of the support piece 13 by welding, and separately from the guide protrusion 12 and the support piece (by casting). 13) can be molded integrally, of course.

The pin coupler 20 is to protrude to the upper side of the bottom surface 11 of the body 10 and the pin hole 21 is through, the pin hole 21 as shown in Figure 3 fastening pins (3) is fastened and fixed.

Accordingly, the bottom surface 11 of the body 10 is introduced into the lower end of the aluminum foam 1, the pin coupling hole 20 is fitted into the hole (1a) through the lower end of the aluminum foam (1) After the fastening pin (3) is fitted into the pin hole 21 of the pin coupling hole 20 is fastened to achieve the binding of the body 10 and the aluminum foam (1).

In the state in which the aluminum foam 1 and the body 10 are bound as described above, the square support 2 is positioned between the aluminum foam 1 and the support piece 13 of the body 10, and then the supporter ( What is necessary is just to fix the square support 2 closely to the aluminum foam 1 side using 30).

The support 30 includes two sliding surfaces 31 and 31 and two sliding surfaces 31 respectively positioned at both sides of the support piece 13 such that the support piece 13 is drawn inwardly. (31) is connected to the support surface 32 is in close contact with one surface of the square support (2) and through the upper and lower longitudinal direction of the sliding surface 31 is inserted into the guide projection 12 of the support piece (13) The losing guide hole 33 is made through the hole.

Accordingly, the support 30 is rotated as shown in FIGS. 3 and 4 while the rectangular support 2 is positioned between the aluminum foam 1 and the support piece 13 of the body 10. So that the support 30 is positioned perpendicular to the support 13.

In addition, the support 30 is positioned perpendicular to the support piece 13, and then the support 30 is strongly lowered toward the bottom 11 of the body 10 to support the support 30. The surface 32 is firmly adhered to the side surface of the square support 2 to firmly fix the square support 2.

As such, the reason why the supporter 30 is firmly fixed and fixed to the square support 2 in the process of lowering the support 30 toward the bottom 11 is such that the guide protrusion 12 of the support piece 13 is fitted. The guide hole 33 through the upper and lower longitudinal direction of the sliding surface 31 is inclined to be inclined in the direction of the pin coupling hole 20 protruding toward the upper surface of the bottom surface 11 of the body 10 is It is possible because it is done.

In other words, as the guide hole 33 of the support 30 inserted into the guide protrusion 12 is inclined toward the pin coupling hole 20 side of the body 10 as shown, When the supporter 30 is lowered, the guide hole 33 of the supporter 30 is guided by the guide protrusion 12 to gradually push the supporter 30 toward the square support 2 side. Close contact fixing of the rectangular support body 2 by 30 is attained.

At this time, the present invention is a close contact with the side surface of the support surface 32 and the square support 2 of the support 30 is in close contact is made by the close contact and fixed to the square support (2) greatly Can be improved.

In addition, the present invention can be fixed by the screw fastening method in the prior art, because the square support (2) can be fixed in close contact by the operation of lowering immediately after the vertically positioned by rotating the support (30). Not only can the square support be more closely fixed than the square support by fastening the square support, but also the time required for the installation work of the entire aluminum foam according to the shortening of the working time can be greatly shortened.

In addition, the two sliding surfaces 31 and 31 are connected to the upper portions of the two sliding surfaces 31 and 31 of the support 30 so that the support 30 is separated from the support piece 13. The prevention pin 40 is further provided to prevent the departure.

The prevention pin 40, while preventing the support 30 from being separated from the support piece 13, as well as in the process of removing the aluminum foam installed after installing the retaining wall by pouring concrete using the installed aluminum foam To lift the lowered support 30 again.

In other words, in order to dismantle the aluminum foam 1, the square support 2 tightly fixed to the lower end of the aluminum foam 1 should be separated. At this time, the support tool for tightly fixing the square support 2 tightly is fixed. When hitting the prevention pin 40 provided on the upper portion of the support 30 to the upper direction of the support using a hammer such as a hammer (30) strongly support the square support ( 30 is separated to the upper side of the square support (2) by the hammer hit.

In this way, the support 30 is separated from the square support 2, and then the fastening pins 3 fastened to the pin holes 21 of the pin coupler 20 are removed, and then the body 10 is removed from the aluminum foam 1. Removing from the bottom of the) proceeds to dismantle the aluminum foam (1) easily installed.

In addition, the present invention is accommodated in the guide projections 12 of the support 30 so that the guide protrusion 12 is rotated with respect to the support piece 13 of the body 10 in the guide hole (33) Rotating portion 34 of the arc shape is further extended.

Accordingly, as shown in FIG. 3, the supporter 30 is rotated with respect to the support piece 13 of the body 10 to be vertically positioned, or the supporter 30 is disposed of the support piece 13. It can be rotated in one direction, which is possible because the arc-shaped rotating part 34 of the support 30 is rotated about the guide protrusion 12 protruding from the support piece 13 as an axis.

Accordingly, when the square support 2 is tightly fixed to the aluminum foam 1 by using the support 30, the support 30 is rotated to be positioned perpendicular to the support piece 13. When disassembling the aluminum foam 1, the support 30 may be rotated in one direction of the support piece 13.

Since the support 30 is rotated in one direction of the support piece 13 as described above, the support 30 is positioned on the upper side of the square support 2 during the dismantling operation of the aluminum foam 1. As a result, it is easy to separate the square support 2 from the aluminum foam 1.

While the present invention has been described in connection with what is presently considered to be preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is to be understood that the technical scope of the present invention includes all of the techniques that can be used by those skilled in the art to which the present invention belongs.

1: aluminum foam 2: square support
10 body 11 bottom surface
12: guide protrusion 13: support piece
20: pin coupler 21: pin hole
30: support 31: sliding surface
32: support surface 33: guide hole
34: rotating part 40: prevention pin

Claims (4)

It is installed at a lower end of the retaining wall aluminum foam (1) at regular intervals and firmly fixed to the aluminum foam (1) of the square support (2) located horizontally along the bottom longitudinal direction of the aluminum foam (1). In the support bracket for firmly supporting the lower end of the aluminum foam (1),
A body 10 having a horizontal bottom surface 11 and a support piece 13 protruding vertically toward an upper side of the bottom surface 11 and protruding with a guide protrusion 12 thereon;
A pin coupler 20 protruding to an upper side of the bottom surface 11 of the body 10 and having a pin hole 21 therethrough;
The two sliding surfaces 31 and 31 respectively positioned on both sides of the support piece 13 and the two sliding surfaces 31 and 31 are connected to each other such that the support piece 13 is drawn inwardly, The support surface 32 which is in close contact with one surface of the support 2 and the guide hole 33 through which the guide protrusion 12 of the support piece 13 fits through the upper and lower longitudinal directions of the sliding surface 31 are formed therethrough. The lower support bracket of the aluminum foam, characterized in that the support 30 is made. The method according to claim 1,
The guide hole 33, which penetrates in the longitudinal direction of the upper and lower portions of the sliding surface 31 so that the guide protrusion 12 of the support piece 13 is fitted, protrudes toward the upper side of the bottom surface 11 of the body 10. The lower support bracket of the aluminum foam, characterized in that formed inclined so as to be inclined in the direction of the pin coupler (20). The method according to claim 1,
The two sliding surfaces 31 and 31 are connected to upper portions of the two sliding surfaces 31 and 31 of the support 30 so that the support 30 is separated from the support piece 13. The lower support bracket of the aluminum foam, characterized in that the prevention pin 40 is further provided to prevent that. The method according to claim 1,
In the guide hole 33 of the support 30, an arc-shaped rotating part in which the guide protrusion 12 is accommodated so as to rotate the support 30 with respect to the support piece 13 of the body 10 ( 34) the lower support bracket of the aluminum foam, characterized in that the extension is made more.

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