KR101126342B1 - Support for a Upper Reinforcing Bar of Footings - Google Patents

Abstract

The present invention relates to a reinforcing bar support structure, and more specifically, to be installed on the foundation ground to prevent vertical buckling and to support the upper part of the foundation without sagging, and at the same time configured to enable the on-site workers to work safely on the upper part of the foundation, Its main configuration is made of a predetermined length three or more vertical members arranged in parallel at a predetermined interval; A horizontal member which is a vertical buckling preventing member connecting the vertical members to each other; The nodes of the vertical member and the horizontal member are fixed by welding, and the vertical members and the horizontal members correspond equally to the vertical force and the horizontal force applied to the reinforcing structure, thereby preventing vertical buckling. Strengthen the vertical buckling prevention by installing braces on the joints and other nodes formed by the vertical member and the horizontal member to meet each other, and by installing a vertical member support plate larger than the lower end area of the vertical member at the bottom of the vertical members. By supporting the balance or by installing a vertical member adjustment support for height adjustment in the lower portion of the vertical members to adjust the length of the vertical member can be more stable support of the upper base root structure.

Vertical member, horizontal member, brace, vertical member adjustment support, upper part of foundation, discarded concrete layer

Description

Reinforcing Bar Structure {Support for a Upper Reinforcing Bar of Footings}

The present invention relates to a reinforcing bar support structure, and more particularly, is installed on the upper part of the foundation ground to prevent vertical buckling and to support the upper part of the foundation without sagging, and at the same time the base workers can work safely on the upper part of the foundation. A reinforcing bar support structure used to support the

In general, the lower part of the foundation and the upper part of the foundation are installed in the foundation construction for building construction.In recent years, as the high-rise building is generalized, the depth of the mat is deepened and the upper part of the foundation is cast in the upper part of the foundation. As the reinforcement amount of reinforcing bar installed high from the floor and needed for foundation work increases, the reinforcing bar supporting structure is installed on the lower part of the upper part of the foundation to prevent sagging of the upper part of the foundation and to allow workers to work safely on the upper part of the foundation. Was required.

형과 같은 일정한 규격 형태의 기본틀(1)과 그리고 지지재(2)를 제작한 후 현장에서 철근공이 상기 기본틀(1)이 자립할 수 있도록 지지재(2)로 용접, 볼트 체결 또는 기타 긴결재 등으로 조립하여 기초상부근을 떠 받쳐 줄 수 있도록 설치하기 때문에 표준 도면에 의한 설계 시공으로 현장 시공 감리가 용이하고, 철근 고임용 부재의 기본틀(1)과 지지재(2)를 공장에서 제작한 후 현장에서 조립하는 공법이기 때문에 철근 고임용 부재의 설치가 용이하여 공기를 단축할 수 있었다.Conventionally, there was no special standardized structure or construction method for the reinforcing bar supporting structure installed in the lower part of the upper part of the foundation. Not only is it structurally unstable as it is installed in the form of, but it also has the disadvantage that the air is long as it is manufactured and installed on site. In order to improve this disadvantage, Korean Patent Laid-Open Publication No. 0129865 discloses a basic framework of a reinforcing element for reinforcing members having a function of a reinforcing structure as shown in FIG.

After manufacturing the basic frame (1) and the support material (2) of a certain standard form such as a mold, welding, bolting or other with the support material (2) so that the reinforcing hole in the field can be independent of the frame (1) Since it is assembled with long binding materials to support the upper part of the foundation, it is easy to supervise on-site construction by design and construction according to the standard drawing, and the base frame (1) and supporting material (2) of the rebar stiffening member are factory Since it is a method of assembling in the field after fabricating at, the installation of the rebar stiffening member is easy and the air can be shortened.

형의 기본틀(1)과 기본틀(1)이 지지재(2)로 결합되는데, 이러한 철근 고임용 부재는 상부에서 하부로 작용하는 응력의 대부분을 기본틀(1)이 지탱하여 주고 지지대(2)는 단지 기본틀(1)과 기본틀(1)을 연결하는 역할을 가지고 있음에 따라 공사 작업도중 발생하는 수평력과 수직력에 따른 수직좌굴이 발생되고, 특히 이러한 수직좌굴은 버림콘크리트층 상부에 설치된 철근 고임용 부재에 콘크리트를 타설하거나 현장 철근공이 기초상부근 작업을 하는 도중 예기치 않게 발생되는 등 기초공사에 있어서 안정성 확보가 문제시 되었다. 또한 지반 상부에 타설된 바탕콘크리트층이 평활하지 않거나 기초상부근이 수평으로 평탄하게 위치하지 않은 경우 일정한 길이로 규격화된 철근 고임용 부재를 바탕콘크리트층 상부에 설치한 후 철근 고임용 부 재 상단에 기초상부근를 설치할시 철근 고임용 부재가 기초상부근을 견고하게 지지하는데도 문제가 있었다.However, the rebar sticking member shown in the published Patent Publication No. 0129865 is

The base frame (1) of the mold and the base frame (1) are combined with the support material (2), the reinforcing element is supported by the base frame (1) to support most of the stress acting from the top to the bottom ( 2) has a role of only connecting the base frame (1) and the base frame (1), the vertical buckling occurs according to the horizontal force and the vertical force generated during the construction work, in particular, such vertical buckling is placed on the upper concrete layer Securing stability in foundation works has been a problem, such as placing concrete on reinforcing bars and installing on-site reinforcing holes unexpectedly during work on the foundation. In addition, if the base concrete layer placed on the ground is not smooth or if the upper part of the foundation is not placed horizontally, install the reinforcing element standardized to a certain length on the upper concrete layer and install it on the upper part of the reinforcement part. When installing the upper base, there was also a problem that the reinforcing bar member firmly supported the upper base.

Therefore, the present invention has been invented to solve the above problems, a horizontal member which is a vertical buckling preventing member for arranging three or more vertical members of a predetermined length in parallel at a predetermined interval and connecting the vertical members to each other. By arranging, welding and fixing at regular intervals, it is formed to equally resist the vertical and horizontal forces generated in the reinforcing structure and prevent vertical buckling, and the nodes where the vertical and horizontal members of the reinforcing structure meet and the inner and outer sides. By placing additional braces at the nodes where the vertical and horizontal members meet in a diagonal direction, they form a reinforcing bar structure that can strengthen both vertical and horizontal forces and strengthen the prevention of vertical buckling. After installing on the upper surface of concrete, install the upper part of the foundation, or After bringing ash and horizontal members or braces into the site, install them on the upper surface of the discarded concrete, and then install the upper base on the upper end of the reinforcement structure so that the reinforcement structure can resist horizontal and vertical forces and prevent vertical buckling. It has a structure. In addition, by installing a vertical member support plate larger than the area of the lower end of the resin member at the bottom of the vertical member to further support the vertical member forming the reinforcing structure more stable, or vertical member adjustment support near the bottom of the vertical member By adjusting the height of the reinforcing structure to fit the distance between the upper part of the discarded concrete and the upper part of the foundation by adjusting the length of the vertical member by the vertical member coupling hole and the vertical adjustment support member constituting the vertical member adjustment support, The purpose of the present invention is to provide a reinforcing bar supporting structure that can support the upper base more stably.

In order to achieve the above object, the present invention forms a reinforcing support structure in which three or more vertical members made of a predetermined length and horizontal members, which are vertical buckling preventing members connecting these vertical members to each other, are fixed by welding, or In the reinforcing bar supporting structure connected to the horizontal member and the vertical member to form a reinforcing bar supporting structure in which the vertical member and the horizontal member meets and the node connecting the vertical member and the horizontal member in the direction of the inner and outer diagonals and connecting the brace additionally; If necessary, it provides a reinforcing bar supporting structure in which a vertical member adjusting supporter is installed near the bottom of the vertical member or a vertical member support plate is installed at the lower end of the resin member.

Thus, according to the reinforcing bar structure of the present invention, the vertical member and the horizontal member, which is a vertical buckling member, is applied to the reinforcing bar support structure by forming a reinforcing bar support structure fixed by welding or by adding a brace to the reinforcing bar support structure. The vertical members and the horizontal members correspond equally to the vertical force and the horizontal force to prevent vertical buckling, and also the vertical member support plate installed near the bottom of the vertical member or the vertical member support plate installed at the bottom of the resin member. By this, the upper base can be supported more stably.

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

As shown in FIG. 2, the reinforcing bar supporting structure of the present invention is a horizontal member 20 which is a vertical buckling preventing member that arranges four vertical members 10 of the same length in parallel and connects the vertical members 10. ) Is arranged at regular intervals and relates to the reinforcing bar supporting structure, characterized in that the nodes of the vertical member 10 and the horizontal member 20 is fixed by welding. As the vertical member 10 is arranged in parallel at a predetermined interval and welds and fixes the horizontal member 20, which is a vertical buckling preventing member, to the vertical member 10, the vertical force and the horizontal force applied to the reinforcing structure respectively. The vertical members 10 and the horizontal members 20 correspond to the same to form a reinforcing bar structure that can prevent vertical buckling more effectively than the conventional reinforcing bar structure.

The vertical member 10 used in the present invention, the horizontal member 20 as the vertical buckling member is made of a metal material such as steel, steel rods and reinforcement, or high tensile and compressive strength of glass fiber reinforced plastic (GFRP) Or carbon fiber reinforcement.

Figure 3a to 3d is a partial perspective view of another embodiment showing that the rest of the reinforcement supporting structure according to the present invention further installed and different position, Figure 3a is a node where the vertical member 10 and the horizontal member 20 ( A) and the node (B) where the vertical member 10 and the horizontal member 20 meet in the horizontal direction of the inner side by the brace 31, the unit module formed by the brace 31 is gradually going up and down 3b shows a node C where the vertical member 10 and the horizontal member 20 meet and a node where the vertical member 10 and the horizontal member 20 meet in the horizontal and diagonal directions thereof. D) is connected to the brace 32, and the brace 32 is installed alternately on the opposite side of the unit module formed by the brace 32, Figure 3c shows that the vertical member 10 and the horizontal member 20 The nodal point E and the vertical member 10 and the horizontal portion in the horizontally diagonal direction thereof It is shown that the node (G) where the vertical member 10 and the horizontal member 20 meet with the brace 33, just above the node (F) where the 20 meets, Figure 3d is a horizontal member 20 A brace 34 connecting the one point H of the horizontal member 20 positioned at the uppermost part, a node I where the vertical member 10 installed below the horizontal member 20 meets, the brace 34 34) and the ㅅ -shaped unit module formed of the brace 34 is installed continuously across the four sides consisting of the vertical member 10 and the horizontal member 20, Figure 3e is a horizontal member 20 And a brace 35 for connecting one point J of the horizontal member 20 positioned at the lowermost position, a node K where the vertical member 10 and the horizontal member 20 installed at the upper portion thereof meet, and the brace ( 35) and brace 35 shows that the unit module of the inverted '-' shape is installed in succession across the four sides consisting of the vertical member 10 and the horizontal member 20. 3A to 3E show the vertical member 10 and the horizontal member 20 between the nodes and the nodes where the vertical member 10 and the horizontal member 20 meet, or by installing the braces 31 to 35 on the horizontal member 20. It shows a more efficient structure that can further prevent vertical buckling due to stress reinforcement for).

4a to 4d is a reinforcing bar supporting structure according to the present invention, installed at regular intervals in the reinforcing bar supporting structure formed of four vertical members 10, the horizontal member 20 is coupled to the vertical member 10 ( 30) and a perspective view showing that the vertical member adjustment support 40 is further installed, FIG. 4A is a node where the vertical member 10 and the horizontal member 20 meet and the vertical member 10 horizontally in the direction of the outer vertical diagonal. The brace 10 connecting the nodes where the member 20 meets shows that the brace 30 is installed in a zigzag form on the outer surface which is installed between the horizontal member 20 and the horizontal member 20 on which the brace 30 is installed. 4b is a sequential 30 connecting the nodes where the vertical member 10 and the horizontal member 20 meet and the nodes where the vertical member 10 and the horizontal member 20 meet in the diagonal direction thereof in the horizontal direction. It is installed as crossed, as described in Figure 3a above As one brace 30 is upward, the brace 30, which is installed at the bottom, is sequentially connected with the brace 30 installed thereon, and the structure of the reinforcing bar supporting structure consisting of the vertical member 10 and the horizontal member 20 rises. 4c is provided with braces 30 connecting the nodes just above the nodes where the vertical member 10 and the horizontal member 20 meet and the nodes where the vertical member 10 and the horizontal member 20 meet in the diagonal direction thereof. And the braces 30 of these unit modules are installed as they cross sequentially toward the upper side, and FIG. 4D shows the vertical member 10 and the vertical member 10 in the outer vertical diagonal direction where the vertical member 10 and the horizontal member 20 meet each other. And braces 30 are installed on the same surface where the braces 30 connecting the nodes where the horizontal member 20 meets are installed in the diagonal direction with these braces 30 to form an 'X' shape and such 'X' shape Pair of 'X's in opposite directions It indicates that the brace (30) for the bracing of the type installed and forming the unit modules is installed as sequentially crossed by a go to the top. Embodiments of the steel support structure shown in Figures 4a to 4d is designed to resist the horizontal and vertical stress acting externally and to effectively respond to vertical buckling by installing the brace in various forms, Figure 4a 4 to 4d can be selected and installed according to the conditions of the construction site when installing the upper base. In addition, by installing the vertical member adjustment support 40 near the bottom of the vertical member 10 by adjusting the length of the vertical member 10 to match the distance between the top of the discarded concrete 70 and the upper base 50, The reinforcing bar support structure can more firmly support the upper base muscle 50.

5a to 5b is a cross-sectional view of the vertical member adjustment support 40 installed in the lower portion of the vertical member 10, the vertical member adjustment support 40 is a vertical member coupling port 41 and the vertical adjustment support (42) The vertical member coupling hole 41 is coupled to a fixed portion of the lower end of the vertical member 10, the screw thread is formed on the outside is formed to rotate in combination with the screw thread formed inside the vertical support base 42 As the vertical member coupler 41 and the vertically adjustable support base 42 are configured to rotate by screwing each other, the upper part of the concrete layer 70 is not smooth or needs to adjust the installation length of the reinforcing structure. In this case, the vertical adjustment support 42 in the fixed state of the vertical member 10 can be rotated forward / backward to adjust its length.

6 is a perspective view showing that the vertical member support plate 43 is fixed by welding with the lower end of the vertical member 10, the vertical member support plate 43 is formed larger than the area of the lower end of the vertical member 10 The supporting structure stably rests on the discarded concrete layer 70 to firmly support the upper base root 50.

Figure 7 shows the elevation of the foundation construction site is installed reinforcement structure according to the present invention, the foundation base 60 is installed on the upper surface of the discarded concrete layer 70 cast on the excavated ground (80) and discarded concrete layer ( 70) Reinforcing bar supporting structure is installed on the upper surface and the upper base 50 is installed on the top, the reinforcing bar supporting structure is the vertical member 10 and the horizontal member against the vertical force and the horizontal force applied to the reinforcing bar supporting structure 20 and braces 30 correspond equally to prevent vertical buckling, and the length of the reinforcing structure can be adjusted by the vertical member adjustment support 40 installed in the lower portion of the vertical member 10.

1 is a perspective view of a conventional reinforcement structure

Figure 2 is a perspective view showing a reinforcing bar structure according to the invention

3a to 3e is a partial perspective view of other embodiments showing that the brace is further installed in the reinforcing structure according to the present invention and the position thereof is different

Figure 4a to 4d is a perspective view showing yet another embodiment of the brace and vertical member adjustment support is further installed in the reinforcing structure according to the present invention

5a to 5b is a vertical member adjustment support installed in the lower portion of the vertical member, the cross-sectional view showing that the resin member moves up and down as the vertical adjustment support is rotated left and right

Figure 6 is a perspective view showing that the vertical member support plate is fixed by welding to the lower end of the vertical member

7 is an elevation view of the foundation construction site is installed reinforcing structure according to the present invention

<Description of the symbols for the main parts of the drawings>

10: vertical member 20: horizontal member

30: brace 40: vertical member adjustment support

41: vertical member coupling port 42: vertical adjustment support

43: vertical member support plate 50: near the upper base

60: near the base 70: discarded concrete layer

80: Ground A to G, I, K: Node

H, J: one point

Claims (9)

delete As a reinforcing bar support structure which is installed to support the upper part of the foundation on the upper base of the discarded concrete layer, 4 vertical members are arranged in parallel with the same length, and at least three horizontal members, which are vertical buckling preventing members connecting all the vertical members, are fixed at regular intervals to fix the nodes of the vertical members and the horizontal members by welding, One point (H) of the horizontal member positioned at the top of the horizontal member and a node (I) where the vertical member and the horizontal member disposed below the upper surface are connected or one point of the horizontal member positioned at the bottom of the horizontal member ( J) and at least one fixing the brace connecting by welding the node (K) that the vertical member and the horizontal member installed on the upper part is installed, Vertical member adjustment support is installed on the lower portion of the vertical member to adjust the height of the vertical member, It consists of a vertical member coupling sphere and a vertical adjustment support, the vertical member coupling sphere is coupled to a fixed portion of the lower end of the vertical member, the outer thread is formed is configured to rotate in combination with the screw thread formed inside the vertical adjustment support base. Reinforcing bar structure delete delete delete delete delete delete delete

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