KR100611604B1 - Revement frame - Google Patents

Abstract

The present invention is to maintain the retaining wall shape when the stone wall frame is composed of a plurality of unit steel unit, the member rigidity is weak and to install the minimum number of horizontal members and joint members, and to support the final load and maintenance device to install the string member and bolt By preventing the movement of the vertical member by connecting the connecting plate to the outside of the vertical member of the unit steel unit coupled to the retaining wall frame is installed in the vertical steel unit vertical unit unit.

The retaining wall frame configured as described above has a vertical member connected horizontally to fix the vertical member so that the retaining wall frame can be maintained as a unit of behavior of a single body, and the vertical member of the unit steel unit having the verticality is another unit steel unit. It is connected to the upper and lower parts of the vertical member to transfer the axial force transmitted from the upper side to the lower side vertical member to prevent the horizontal member from being damaged, and by connecting the reinforcing member fastened to the vertical member with two or more bolts, hinge behavior occurs during external pressure action. And the problem that the retaining wall frame is damaged due to the bending phenomenon of the reinforcing member during stone filling, and in particular, by installing a screen net in the inner direction of the reinforcing member to prevent breakage and deformation of the reinforcing member during the stone filling by the screen net. It is a very useful invention that can extend the life of the retaining wall frame.

Retaining wall frame, unit steel unit, vertical member, connecting plate, screen net, connecting hole

Description

Retaining Wall Frame {REVEMENT FRAME}

1 is an overall perspective view of the present invention

Figure 2 is a perspective view of the main portion is connected to another unit steel unit unit steel unit

Figure 3 is a side view of the present invention installed

Figure 4a is a front view of a vertical member having a conventional hinge behavior structure

Figure 4b is a front view of the vertical member having a rigid structure of the present invention

Figure 4c is a plan view of the reinforcing member by the conventional bending moment generation

Figure 4d is a plan view of the reinforcing member by the bending moment generation of the present invention

5 is an embodiment of the present invention using another form member

<Brief description of the main parts of the drawing>

 A-Retaining Wall Frame 1,1 ', 1a, 1a'-Unit Steel Unit

10-square frame 11,11 ', 11a, 11a'-Vertical member

12,12'-horizontal member 13,13'-joint member

14-connection plate 15-reinforcement

16-screen net 17-bracing member

20,20 ', 20a-hole W-string

The present invention relates to a retaining wall frame, which is a structure for supporting earth pressure by its own weight, and more specifically, to a vertical member of a unit steel unit of a retaining wall frame to which a plurality of unit steel units are connected. By connecting the string member to prevent the movement of the vertical member and to invent the final stress is converged to the string member.

In addition, a plurality of reinforcing members are installed in the transverse direction to the inside of the vertical member to be installed on the front side and the screen net is installed in the inner direction of the reinforcing member to direct friction between the reinforcing member and the stone during the filling process by the screen net. The shock absorber prevents the shape of the reinforcing member from being deformed. Accordingly, the spacing between the reinforcing members can be installed in a smaller number than before. One side of the reinforcing members is 2 × 2 for fastening the vertical member and the reinforcing member with bolts. In the external pressure action, the vertical member can maintain the vertical state, and even when the bending moment is generated by the filling operation, the swelling phenomenon in which the reinforcing member is deformed to the front is reduced to about 1/5 in proportion to the past. Since the screen net is installed inside the reinforcing member, the deformation state of the reinforcing member is extremely insignificant. Ultimately, it is a very useful invention that can extend the life of the retaining wall frame.

As you know, retaining walls are walls that are built so that soil does not collapse in response to earth pressure. The retaining wall is mainly classified into a rigid structural retaining wall and a flexible retaining wall. The rigid retaining wall is a reinforced concrete retaining wall that is not deformed against earth pressure and is a structure that can be used permanently. Due to the high cost, a lot of burden is generated to install in actual field.

On the other hand, the flexible structure retaining wall is easy to proceed at a low cost of construction, and is mainly used in the field. The type of the flexible structure retaining wall is divided into a gebion retaining wall and a steel frame retaining wall. After the wire mesh is assembled into a box shape in the unfolded state of the wire mesh, the filling process is performed in the box. After the filling process is completed, the lid is tied with a wire using a finishing material such as iron wire, which is installed by a simple working method. The steel frame retaining wall is made of steel member to make a box-shaped frame, and then fills the stone inside the frame to make a wall, which is easy to resist earth pressure and extinguish hydraulic pressure due to drainage structure. It can be installed more economically than retaining wall.

However, in the flexible structure retaining wall configured as described above, the gebion retaining wall itself is prone to hand and loss due to external weather change, weathering action, and environmental change factors. It is difficult to check the wealth and take safety measures. Local damage is transferred to the overall collapse, and there is an inherent danger of a large safety accident. However, the member structure is complicated in shape and the pillar of the vertical member formed in the vertical direction has to be vertical and transmit the axial force transmitted from the upper side to the lower one, but the vertical member is a structure placed in the span of the horizontal member. The breakage of the horizontal member causes the retaining wall to collapse while the force of When the stone filling operation is carried out on the retaining wall frame, the stone and the reinforcing member are directly rubbed by filling the irregular shape and shape of the inside of the retaining wall frame which is not provided with a structural defense means. From the installation step, there is a problem that the breakage and deformation of the reinforcing member is caused, and the connection structure between the vertical member and the reinforcing member is connected by a single bolt so that when the load is transmitted from one side of the vertical member, The vertical member is deformed to be inclined in a parallelogram shape due to the hinge structure around the fastened bolt and the bending moment transmitted to the reinforcing member during stone filling is centered on the single bolt fastened to both sides of the vertical member. Deformation of retaining wall frame due to damage of reinforcement member This is caused such a problem.

In addition, the horizontal member is provided in the shape of the opening is formed in the lower side is a gap generating structure in which the space is formed without the stone is filled in the lower opening during the stone filling operation, there is a problem of the risk of damage due to the imbalance of force due to the stress transmission is not the same And because the retaining wall frame is simply installed on the ground, the problem that the retaining wall frame installed on the ground during the rainfall has been raised.

Therefore, an object of the present invention is to connect the wire rope or wire or reinforcing bar and PS steel wire to the vertical member of the retaining wall frame composed of a plurality of unit steel unit to prevent the movement of the vertical member and the final stress converges to the string member It is an object of the present invention that the retaining wall frame is reinforced by a string member.

Another object of the present invention is to form a bolt fastening structure with a reinforcing member connected to the vertical member in a rigid structure of 2 × 2 to maintain the vertical state of the vertical member even when an external pressure occurs on one side and the bending moment is transmitted during the filling It is another object of the present invention that the deformation inclination θ of the reinforcing member is generated to a small value by the fastening structure of two fastened bolts, and the load phenomenon is reduced to 1/5 to maintain the shape of the retaining wall frame. do.

Still another object of the present invention is to vertically arrange the vertical member having a vertical structure so that the axial force transmitted from the upper side can be easily transmitted to the lower side and the screen net is installed inside the reinforcing member to reinforce the stone filling operation Another object of the present invention is to prevent deformation and breakage of the reinforcing member by avoiding direct friction with the member.

Hereinafter, the components of the present invention will be described.

In the retaining wall frame (A) formed of a unit steel unit (1) consisting of a vertical member (11), a horizontal member (12) and a joint member (13) is coupled up, down, left, and right, the unit steel unit (1) ), The horizontal member 12 is coupled to the vertical member 11 having the connection hole 20 to form a square frame 10, and the joint member 13 to the vertical member 11 of the square frame 10. Is configured to be coupled, the connection member 20 of the vertical member 11 of the unit steel unit 1 and the connecting hole 20 of the other vertical member 11 through the string member (W) is penetrated to reinforce It is coupled, the reinforcing member 15 is fastened by two bolts each of the upper and lower portions into the vertical member 11 of the unit steel unit 1 inclined in front of the retaining wall frame (A) and the vertical member (11) The connection plate 14 is formed by the bolt hole 140 is formed in the outer edge portion of the pad is coupled.

In the retaining wall frame A coupled as described above, the reinforcing member 15 is bolted to the vertical members 11 and 11 ', and two bolts are fastened to each of the upper and lower bolts. It is fastened in a structure of 2 and the screen net 16 is installed in the inner direction of the reinforcing member 15 and the bracing member 17 is installed in the side portion is installed in the upper left and lower right direction so that the upper side is toward the front The horizontal member 12 and the joint member 13 is installed so as to be formed with an opening to the upper side is configured to prevent the occurrence of voids during stone filling.

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

1 is a view illustrating the entire perspective view of the present invention, wherein a unit steel unit 1 having a rectangular parallelepiped shape is coupled by a bolt nut at the center thereof, and a unit steel unit formed to be inclined toward the front of the unit steel unit 1 coupled as described above. The front vertical member 11 of the unit steel unit 1, which is coupled to the front surface as a combination of (1), is a lower joint connecting the horizontal member 12 and the horizontal member 12 to be inclined with the ground. The member 13 'is formed to extend from the upper joint member 13 so that the vertical member 11 is inclinedly installed, and another unit steel unit 1a stacked on the upper side of the unit steel unit 1 is also It is laminated in proportion to the slope of the lower unit steel unit (1).

A plurality of reinforcing members 15 are coupled to the front surface of the vertical member 11 of the unit steel unit 1 to be laminated and bonded as described above, and the screen net 16 is installed in the inner direction of the reinforcing member 15, When the screen net 16 is in close contact with the reinforcing member 15 and the stone filling operation is carried out in the state where the screen net 16 is provided as described above, the stone is formed in a different size and shape. Direct friction with the screen net 16 during the filling operation prevents friction with the reinforcing member 15 to prevent deformation and breakage of the reinforcing member 15 and distributes the load of stones transferred to the screen net 16. The number of installation of the reinforcing member 15 by the screen net 16 configured as described above is configured to be transmitted in the direction of the reinforcing member 15 is configured to reduce the amount of installation by extending the placement interval in proportion to the previous Will.

In addition, the combination of the vertical member 11 and the reinforcing member 15 is fastened in a bolted structure of 2 × 2, that is, a steel fastening structure in which four bolts are fastened to two horizontally and two vertically, respectively. The connection hole 20 formed in the vertical member 11 of the unit steel unit 1 is coupled to the row member W, but the connection hole of the vertical member 11 to prevent movement of the row member W. The line member (W) is formed to prevent movement of the line member (W), and the line member (W) passes through the connecting holes (20) and (20 ') of the vertical member (11) and the vertical member (11'). It is to prevent the movement of the vertical member (11), (11,) by fixing the string member (W) by the movement preventing means of the connection hole (20, 20 '), Figure 2 is a unit steel unit (1) As shown in a perspective view of the main portion to which another unit steel unit 1 'is connected to the vertical member 11 of the unit steel unit 1 is configured in a shape having an L-shaped cross section The outer side of the vertical member (11 ') of the other unit steel unit (1') to one side close to correspond to the vertical member 11, 11 'of the same structure in close contact with the vertical member 11 ), (11 ') is to be bonded to each of the four sides of the bolt nut is fixed to each other by a plurality of bolt nuts are fastened along the length of the vertical member (11), (11') and the horizontal member ( 12) and the joint member 13 are shown separately separated, as well as clearly showing the joint structure as well as the opening of the horizontal member 12 and the joint member 13 is installed to face the upper side during the stone filling operation Another unit steel unit (1a) is provided to the upper side of the unit steel unit (1a) to prevent the occurrence of voids in the lower side of the member 12 and the joint member 13 in advance to prevent the risk of member damage Connection to show the joint structure with 14 shows that the unit of the steel material unit 1 and other units of the steel material unit (1a) is connected with the.

Another unit steel unit having the same structure as the lower portion on the upper side of the vertical member 11 of the unit steel unit (1 ') and tightly fixed on the side of the vertical member 11 of the unit steel unit (1) shown as described above Vertical members 11a and 11a 'of (1a) and (1a') are installed in the vertical direction, but vertical members of the unit steel units (1), (1 '), (1a) and (1a') Bolts formed in the four directions of the connecting plate 14 in the bolt holes 110, 110 ', 110a, and 110a' formed in the 11, 11 ', 11a, and 11a'. After the ball 140 is located in a straight line, the vertical members 11, 11 ', 11a, 11a' and the connecting plate 14 are configured to be assembled and fixed with bolt nuts.

Figure 3 is a side view schematically showing the state in which the present invention is installed, the back portion of the retaining wall frame (A) is a back filling is performed and the lower base is provided as a concrete layer (C) as shown in the unit steel unit ( The bracing member 17 installed in 1) is configured to support the load transfer according to the back filling operation by installing the bracing member 17 in the upper left and right downward direction as the tension member, and when the bracing member 17 is installed in the upper right direction as the compression member, the buckling and The risk of breakage is raised and is configured to prevent the retaining wall frame A from sinking even in the rain by the concrete layer (C).

4A and 4C show the bolting structure of the vertical member 11 and the reinforcing member 15 having the hinge behavior structure according to the previous number of bolting, and FIG. 4B and FIG. 4D show 2 × according to the present invention. The bolt fastening structure of the vertical member 11 and the reinforcing member 15 having a bolt fastening structure of 2, that is, a steel fastening structure having four bolts fastened to two in the longitudinal direction and two in the longitudinal direction, respectively, is shown in FIGS. 4A and 4B. 4b shows the deformation state of the load transmitted in the lateral direction, and FIGS. 4c and 4d show the deformation state of the reinforcing member 15 transmitted during the filling operation in plan view.

As shown in FIG. 4a, the vertical member 11 is inclined laterally about a single bolt that is hinged when the load is transmitted from one side, and the vertical member 11 and the vertical member 11 ′ are simultaneously inclined laterally. The connected reinforcement member 15 is also moved and deformed into a parallelogram-like shape to cause a safety problem, and FIG. 4B is a steel fastening structure having a bolt connection structure of 2 × 2, and a load is applied at one side. It is also shown in the virtual line that can maintain the vertical state during transmission, Figure 4c shows a state in which the reinforcing member 15 is deformed to the front surface around the fastening bolts on both sides by the bending moment generated during the stone filling operation. 4d shows that two bolts are fastened to both sides of the reinforcing member 15 when bending moments are generated, thereby maintaining the equilibrium between the bolts fastened to the one vertical member 11 and the bolts. In response to the force and the force to maintain the balance between the bolt fastened to the other vertical member (11 ') and the bending moment is applied like a hidden line, the inclination value to deform the reinforcing member 15 is generated by a small value Calling phenomenon is reduced to 1/5 is applied to maintain the shape of the reinforcing member (15).

Meanwhile, FIG. 5 is a view illustrating a state in which the shape member of the unit steel unit 1 is provided as a shape steel member having a cross section of a different structure as an embodiment of the present invention, wherein the unit steel unit 1 includes a plurality of bolt holes 110. The vertical member 11 having a T-shaped cross section formed in the four directions is installed in the four directions, the upper and lower portions of the vertical member 11 and the vertical member 11 has an L-shaped cross section in which bolt holes 120 are formed at both sides. The horizontal member 12 is bolted to the bolt hole 110 of the vertical member 11 and has an L-shaped cross section in which the bolt hole 120 is formed on both sides of the horizontal member 12 and the horizontal member 12. It is shown that the bolt hole 110 formed on the other side of the vertical member 11 and the bolt hole 120 of the joint member 13 are bolted so that the opening 13a of the joint member 13 faces inward. will be.

The vertical member 11 coupled as described above is fastened in opposite directions to another vertical member 11 'and then fastened to both sides of the vertical member 11, and thus, a plurality of bolt nuts are formed along the length of the vertical member 11. In this embodiment of the present invention, the vertical member 11 of the unit steel unit 1 and the other unit steel unit 1 'may be formed in one body by providing a T shape as in the present embodiment. If necessary, the horizontal member 12 and the joint member 13 may also be used as members having cross-sections of 'C', 'L', H-shaped and T-shaped cross sections. An embodiment presenting an embodiment of the present invention that can be replaced by a cross-section of the shape.

The fastening force between the vertical members is increased by fastening the string member to the connection hole formed in the vertical member of the unit steel unit, so that the retaining wall frame can be maintained in a solid body, and the retaining wall shape can be maintained even when filling the retaining wall frame. The maintenance and management effect is provided, and the front surface of the retaining wall frame is connected to the vertical member by using a connecting plate to reinforce the joint force, as well as to connect the vertical member of the unit steel unit with the lower vertical member. The axial force of the vertical member is transmitted to the lower vertical member, so that the support is desired, as well as the vertical member vertically as in the prior art is effectively improved the problem that the damage is placed on the lower horizontal member.

In addition, it provides the effect of preventing voids when filling stones according to the shape and size of members, preventing member deformation and breaking during load transfer according to the filling of stones, and stress control function of horizontal members as a whole. Disadvantages of hinge behavior due to the steel structure and the deformation slope of the reinforcing member due to the bending moment during the filling, ie, the load phenomenon, was reduced to about 1/5. It is possible to maintain the shape of the reinforcing member because the stone is not rubbed with the reinforcing member, and the vertical member is formed in a shape such as a solid L or T shape to install a horizontal member having various shapes on the upper and lower parts of the vertical member. This prevents local buckling of vertical members due to axial force transfer.

On the other hand, the present invention has been described with reference to the examples shown in the drawings, but this is only illustrative and it will be apparent to those skilled in the art that various modifications and equivalent other embodiments are possible from this. have.

Claims (5)

delete delete In the retaining wall frame A in which the unit steel unit 1 composed of the vertical member 11, the horizontal member 12, and the joint member 13 is coupled up, down, left, and right, The unit steel unit 1 is a horizontal member 12 is coupled to the vertical member 11, the connection hole 20 is formed to form a square frame 10, the vertical member 11 of the square frame 10 The joint member 13 is configured to be coupled to each other, but the connecting member 20 of the vertical member 11 of the unit steel unit 1 and the connecting member 20 of the other vertical member 11 have a string member ( W) penetrates through the reinforcement, and the reinforcing member 15 is fastened to two upper and lower bolts into the vertical member 11 of the inclined unit steel unit 1 in front of the retaining wall frame A. Retaining wall frame, characterized in that the connecting plate 14 is formed with a bolt hole 140 is attached to the outer edge portion of the vertical member (11). The method of claim 3, wherein Retaining wall frame, characterized in that the screen net 16 is installed in the inner direction of the reinforcing member (15). The method of claim 4, wherein Retaining wall frame, characterized in that the bracing member 17 is installed in the unit steel unit (1) on the left and right of the retaining wall frame (A).

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