KR101035254B1 - Steel block for inducing soil pressure - Google Patents

Abstract

PURPOSE: A residual earth pressure guide steel retaining wall and a construction method thereof are provided to minimize displacement by induction of earth pressure and displacement and to effectively absorb residual earth pressure. CONSTITUTION: A residual earth pressure guide steel retaining wall comprises an H-beam, an earth pressure guide steel(17), a space portion, a topdressing portion, a round rod(25), a fall prevention plate, and a soil-loss prevention unit. The H-beam is embedded in footing concrete placed along a cut portion. The earth pressure guide steel is coupled with a front portion(21) of a steel plate(20) and a horizontal portion of an L-beam(30). The space portion is formed in the space between the top and the bottom of the L-steel. The topdressing portion is formed in the space between the front surface of the steel plate and the vertical portion of the L-steel. The round rod is vertically installed in the rear portion(22) of the steel plate. The soil-loss prevention unit is formed since nature net body, seed, and fertilizer pack are laid under the topdressing portion.

Description

Structure of residual earth pressure induced steel retaining wall and its construction method {Steel Block For inducing soil pressure}

The present invention relates to a residual earth pressure induction steel retaining wall structure using earth pressure induction steel, more specifically, environmentally friendly to promote the growth of plants at equal intervals over the entire exposed vertical surface beyond a simple retaining wall shape. Phosphorus-shaped retaining wall can be easily and firmly constructed at various heights, and the steel retaining wall or concrete retaining wall due to earth pressure acting on the steel retaining wall due to the increase of internal stress caused by the floating settlement of the ground It is a structure that protects the retaining wall by inducing and discharging residual earth pressure generated in the fill area to cope with the displacement or the displacement that may occur on the front surface, and does not provide any obstacle to the growth of the plant grown therein. It can effectively achieve the protection of the incision, which is a function, Former relates to the induction steel retaining wall to absorb the soil pressure induced to buy the remaining embankment of earth pressure compaction unit with the steel to be prevented.

In general, large-scale ground cutting is made for efficient use of land in roads and housing complexes, and especially, retaining walls are constructed to prevent ground collapse when cutting grounds for the construction of land.

The prior art is a retaining wall block of a concrete product, but a steel retaining wall product does not absorb and exclude the residual earth pressure of the stratified part by the compaction equipment after filling, and has only a function of supporting the earth pressure with the steel retaining wall. There is a problem that a crack or displacement occurs in the block or the steel retaining wall.

In addition, when the base 10 is viewed as 100%, the earth pressure does not go to the base 10 when constructing the structure by stratification, but because it is a structure that escapes to the construction of the concrete retaining wall block, all conventional retaining wall structures have a front part ( 21), there is a problem that the occurrence of full displacement is inevitable.

Therefore, it is the earth pressure bearing structure that blocks the earth block which does not induce the earth pressure acting on the concrete block or the green steel when constructing the retaining wall block structure of the conventional concrete product, so that the cracks of the front wall, the load phenomenon, the damage of the front wall structure, etc. Various problems appear

This phenomenon may be structurally safe, but there are questions about its insecurity and its role as a structure.

In addition, the self-supporting retaining wall has a maximum construction height of about 8 ~ 9M and has a limitation of being designed in the form of a special retaining wall according to the ground conditions on the back wall, and in some cases, it has a limit that must be combined with a separate earth pressure supporting method. It is pointed out as a disadvantage.

The present invention has been devised to overcome the problems of the conventional retaining wall, and is not a simple retaining wall, but aims at minimizing the displacement by inducing earth pressure and displacement and establishing a vegetation base on the front of the double retaining wall. ,

Alternatively, when the compaction is carried out in the fill or cut section, 90% to 95% of the ground can be compacted to form a steel retaining wall structure that effectively absorbs the residual earth pressure that is inevitably generated and excludes the earth pressure. For the purpose of

In addition, it does not provide any obstacle to the growth of the plant that grows in front of the steel retaining wall, and effectively protects the incision, which is a function of the retaining wall of the steel retaining wall, thereby preventing safety accidents due to collapse and collapse. To provide a residual earth pressure guided steel retaining wall structure and its construction method, which can be achieved, its technical and technical objectives are provided.

To achieve the above mentioned purpose

The present invention provides a number of H-shaped steel that can be placed in a vertically standing state by installing the foundation concrete (1) at a certain distance along the incision site and embedded at a predetermined interval;

Earth pressure induction steel 17 formed by welding to the front portion 21 of the steel plate 20 and the horizontal portion 32 of the L-shaped steel 30 installed in the H-shaped steel;

 An interval portion 24 formed in a space between the upper and lower portions of the upper and lower L-shaped steels 30;

  Top soil portion formed in the space between the front portion 21 of the steel plate 20 and the vertical portion 35 of the L-shaped steel (30) in order to utilize the earth and sand discharged according to the earth pressure through the gap (24) ( 36), the rear portion 22 of the steel plate 20 is a round bar (25) of the "●" type that is reinforced by welding at equal intervals up and down;

An anti-conduction buried in various places of the backfill point between the retaining wall and the incision for connecting each U-shaped ring 23 to be positioned at the rear surface of the earth pressure induction steel 17 to form a binding of the anti-conduction plate (not shown). Plate (not shown); Including the earth and sand leak prevention portion buried in the discharging portion 36 of the earth pressure induction steel (17) of the seed and fertilizer pack is stored in the natural mesh and seeds at regular intervals over the entire front wall to be filled It provides a residual earth pressure induced steel retaining wall structure and its construction method characterized in that

In addition, the present invention is a H-shaped steel provided with an anchor bolt assembly (8) at the lower end prior to the installation of the earth pressure guide steel (17) to be installed in the cut land at a certain distance along the retaining wall shaft surface of the incision site The first step of embedding the anchor bolt (7) in the concrete foundation (1) at a predetermined interval in accordance with the width of the earth pressure guide steel (17) to install (2)

The H-shaped steel (2) is installed to be mounted on the anchor bolt (7), and the anchor bolt is fastened by fastening a nut (9) to the anchor bolt (7), the anchor bolt assembly for the installation of the H-shaped steel (2) A second step of constructing the part 8 as the protective concrete 3;

The yaw portion 34 is provided on the horizontal portion 32 of the L-shaped steel 30 at equal intervals so that the front portion 21 of the steel plate 20 can be inserted therein, and the yaw portion ( 34 is formed to a thickness of the steel plate 20 and 1/3 the depth of the horizontal portion 32 of the L-shaped steel 30 to form the front portion 21 of the steel plate 20 to the yaw. Each of the L-shaped steels (13) is provided with earth pressure guide steels (17) formed at regular intervals along the entire upper and lower surfaces of the front portion (21) of the steel plate (20) by inserting into the portion (34). A third step of forming a spaced portion 24 between the upper and lower plane portions 32 formed in the 30;

 The fourth step of reinforcing the strength of the earth pressure induction steel 17 by welding and fixing the round bar 25 of the “●” type on the rear part 22 of the steel plate 20 at equal intervals.

The unstable ground ground 15 is stabilized because unstable internal stresses are simultaneously excluded along with the earth and sand discharged along the gap portion 24 which induces the discharge of the soil that is pushed out by the increase of the internal stress of the ground soil 15. 5th step

The vegetation is received by the soil that is pushed out of the ground soil 15 in the cover portion 36 formed in the space between the front portion 21 of the steel plate 20 and the vertical portion 35 of the L-shaped steel 30 Sixth step of burying the seed and the fertilizer pack 40 impregnated with the seeds of the plant in the vegetation soil 37 in order to utilize as a soil (37)

The U-shaped ring 23 is mounted on the front portion 21 of the steel plate 20 forming the earth pressure inducing steel 17, and is installed on the ground soil 15 backfilled between the retaining wall and the incision with a band-shaped reinforcement 26. A seventh step of connecting with the fall prevention plate (not shown) which is embedded;

The backfilled soil ground 15 is an eighth step of including a sediment leakage prevention unit integrally compacted with a vibration roller or a saw compactor, compaction equipment;

 It provides a construction method using the residual earth pressure induced steel retaining wall structure, characterized in that configured.

 When the compaction is carried out in the fill or cut section, 90% to 95% of the ground can be compacted, so it is effective to absorb the residual earth pressure that is inevitably generated and to exclude the soil pressure.

In addition, by effectively eliminating the occurrence of displacement of the retaining wall of the steel retaining wall, it is possible to effectively protect the incision, which is a natural function of the steel retaining wall, and thus has the advantage of preventing safety accidents due to collapse and collapse. .

1 is a state diagram at the time of construction of the fill portion according to the present invention
Figure 2 is a state diagram after construction of earth pressure induction steel according to the present invention
Figure 3a is a front assembly diagram of earth pressure induction steel according to the present invention
Figure 3b is the earth pressure induction steel rear assembly view according to the present invention
Figure 3c is a detailed view of the earth pressure induction steel according to the present invention
4 is a view of the concrete foundation according to the present invention

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted to mean meanings and concepts. .

Hereinafter, the residual earth pressure induced steel retaining wall structure according to FIGS. 1 to 4 will be described in detail with reference to the accompanying drawings.

The present invention provides a number of H-shaped steel (2), which can be placed in a vertical standing state by installing the foundation concrete (1) at a certain distance along the incision site, buried at a predetermined interval,

On the front portion 21 of the steel plate 20 formed by welding the front portion 21 of the steel plate 20 and the horizontal portion 32 of the L-shaped steel 30 is installed in the H-shaped steel (2) The earth and sand discharged along the space | interval part 24 formed between the upper and lower sides of the horizontal part 32 provided in the L-shaped steel 30 to be welded, and the left and right of the said steel plate 20 Soil portion 36 formed in the space between the front portion 21 of the steel plate 20 and the vertical portion 35 of the L-shaped steel 30, the rear portion 22 of the steel plate 20 In the upper and lower intervals, each of the U-shaped rings ("not shown") to form a bar (25), which is formed by the reinforcing bar of the bar (25), the earth pressure induction steel (17) to be reinforced by welding. 23) a fall prevention plate (not shown), which is embedded in a portion of the backfill point between the retaining wall and the incision for connection; To prevent the outflow of sediment buried in the discharging portion 36 of the L-shaped steel (30) formed in the earth pressure induction steel (17), the seeds and fertilizer packs are stored in the natural mesh and seeds at regular intervals over the entire front wall to be filled It provides a residual earth pressure guided steel retaining wall structure including a unit integrally and a construction method thereof.

In addition, Figure 1 is a state diagram of the compaction efficiency according to the filling of the ground soil 15 according to the present invention by cutting the ground ground 10 to construct a residual earth pressure induced steel retaining wall structure, the back portion 15 of the vibration roller Alternatively, when compacted with a compactor compactor, the compaction efficiency is about 90-95% or less, and about 5% is settled.

Since it is not possible to overcome this compaction efficiency, the allowable displacement rate in various reports and brochures abroad is calculated.

As shown in FIG. 1, when the base 10 is viewed at 100%, the earth pressure does not go to the base 10 when building the structure by stratification, but is discharged to the base of the remaining earth pressure induction steel 17. In all retaining wall structures, the front portion 21 may be referred to as the occurrence of full displacement.

Therefore, it can be said that the present invention can effectively cope with the residual earth pressure induction steel structure in the present invention. .

Therefore, the present invention does not prevent the earth pressure generated in the fill soil 15, but has a function of inducing the earth pressure to the front portion 21 of the steel plate 20.

As shown in FIGS. 1 to 4, the front part 21 of the steel plate 20 divided into the front part 21 and the rear part 22 may be inserted into the horizontal part 32 of the L-shaped steel 30. At intervals, the yaw portion 34 is formed to have a thickness of the steel plate 20 and one third the depth of the horizontal portion 32 to form the yaw portion 34 with the steel plate 20. Inserting the front portion 21 to form the earth pressure induction steel 17 by welding, the rear portion 22 of the steel plate 20 at the intervals of the "●" type round bar 25 up, down The welding is provided at equal intervals to reinforce the strength of the earth pressure guide steel 17.

In addition, the coupling between the top and bottom of the earth pressure induction steel 17 is connected by a rectangular clip 45, the band-shaped reinforcement 26 is connected to the resistance plate (not shown) to correspond to the earth pressure of the steel plate 20 It is configured to bind to the U-shaped ring 23 that is caught on the front portion 21 to resist the earth pressure of the fill ground so that the earth pressure induction steel 17 is not conducted.

In order to connect the U-shaped ring 23 and the resistance plate (not shown), one end of the band-shaped reinforcement 26 is connected to a connection ring 28 provided with a connection pin 27.

In addition, it is preferable that the steel plate 20 is formed in a plane to easily discharge residual earth pressure, but the longitudinal section of the steel plate 20 is formed in a wedge shape so that the ground soil 15 does not collapse too easily along the remaining earth pressure. can do.

 In addition, in the discharging portion 36 formed in the space between the upper and lower portions of the L-shaped steel 30 welded to the front portion 21 of the steel plate 20 at a predetermined interval, the fill due to the incomplete compaction of the soil foundation 15 is achieved. The soil is pushed out by the increase in the internal stress of the wealth is received by the soil portion 36 and used as a vegetation soil 37, the seed and fertilizer pack 40 impregnated with seeds of the plant in the vegetation soil 37 It is buried between the vertical portion 35 of the L-shaped steel 30 and the front portion 21 of the steel plate 20.

In FIG. 4, H can install the earth pressure induction steel 17 on the concrete foundation 1 before installing the earth pressure induction steel 17 to be laid on the cut ground at a predetermined distance along the retaining wall shaft surface of the incision. The H-shaped steel (2) having an anchor bolt assembly (8) at its lower end to stand up the shaped steel (2), but to maintain its installation distance at equal intervals, the width of the earth pressure induction steel (17) Accordingly, anchor bolts 7 are embedded at regular intervals, and the anchor bolt assembly 8 provided at the lower end of the H-shaped steel 2 is attached to the anchor bolts 7 to fasten the nuts 9.

Looking at the construction method of the residual earth pressure induced steel retaining wall structure according to the present invention,

Constructed on the cut ground at a certain distance along the retaining wall construction surface of the incision site

Prior to the installation of the earth pressure induction steel 17, the concrete foundation 1 is fixed in accordance with the width of the earth pressure induction steel 17 to install the H-shaped steel 2 having the anchor bolt assembly 8 at the lower end thereof. A first step of embedding anchor bolts (7) in the concrete foundation (1) at intervals;

Assembling the H-shaped steel (2) to be mounted on the anchor bolt (7), fastening the nut (9) to the anchor bolt (7), the anchor bolt assembly for the installation of the H-shaped steel ( 8) the second step of constructing the protective concrete (3);

The yaw portion 34 is installed at equal intervals on the horizontal portion 32 of the L-shaped steel 30 so that the front portion 21 of the steel plate 20 can be inserted therein. 34 is formed to the thickness of the steel plate 20 and 1/3 the depth of the horizontal portion 32 of the L-shaped steel 30 to form the front portion 21 of the steel plate 20 to the L-shaped steel 30 L is inserted into the yaw portion 34 provided in the horizontal portion 32 of the c) and is formed along the entire upper and lower surfaces of the front portion 21 of the steel plate 20. A third step of forming a spaced portion 24 formed between an upper and lower sides of the shaped steel 30 and a left and right of the steel plate 20;

The H-beams 2 embed the anchor bolts 7 at regular intervals according to the width of the earth pressure-inducing steel 17, and the anchor bolt assembly 8 provided at the lower end of the H-beams 2. It is attached to the anchor bolt (7) to the H-shaped steel (2) fastened the nut (9)

Install the earth pressure induction steel (17), the upper and lower coupling is connected with a square clip (45),

A fourth step of reinforcing the strength of the earth pressure-inducing steel 17 by welding the round bar 25 having a “●” shape at an equal interval up and down with respect to the entire area of the rear portion 22 of the steel plate 20;

The ground soil 15 along the soil discharged due to the unstable internal stress of the ground soil 15 along the gap 24 to induce the discharge of the soil pushed out by the increase of the internal stress of the soil soil 15 The fifth step of stabilizing the ground soil (15) is stabilized because the internal stress of the exclusion together;

The vegetation is received by the soil that is pushed out of the ground soil 15 in the cover portion 36 formed in the space between the front portion 21 of the steel plate 20 and the vertical portion 35 of the L-shaped steel 30 A sixth step of burying the seed and the fertilizer pack 40 in which the seeds of the plant are impregnated in the vegetation soil 37 so as to be used as the soil 37;

The U-shaped ring 23 is mounted on the front portion 21 of the steel plate 20 forming the earth pressure inducing steel 17, and is installed on the ground soil 15 backfilled between the retaining wall and the incision with a band-shaped reinforcement 26. A seventh step of connecting the fall prevention plate (not shown) and the front part 21 of the steel plate 20 to be embedded;

The backfilled soil ground 15 is compacted with a vibrating roller or a saw compactor, compaction equipment, and the eighth step of including the soil leakage prevention unit integrally; construction of the residual earth pressure guided steel retaining wall structure Way

One ; Concrete foundation 2; H section steel 3; Protective concrete 7; Anchor bolt
9; Nut 10; Ground plate 15; Soil foundation 17; Earth Pressure Induction Steel
20; Steel plate 21; Front part 22; Rear part 23; U-shaped ring
24; Spacing 25; Round bar 26; strip stiffener 27; Connecting pin
28; Connecting ring 30; L-shaped steel 32; Horizontal section 34; Urinary tract
35; Vertical section 36; Topsoil 37; Vegetation soil 40; Seed and fertilizer packs 45; Square clip

Claims (3)

The front portion 21 of the steel plate 20 provided in the earth pressure guide steel 17 installed in the H-shaped steel is inserted into the yaw portion 34 provided in the horizontal portion 32 of the L-shaped steel 30. Through the gap portion 24 formed between the upper and lower portions of the L-shaped steel 30 formed by welding and between the left and right sides of the steel plate 20 and the gap portion 24. Top soil portion 36 formed in the space between the front portion 21 of the steel plate 20 and the vertical portion 35 of the L-shaped steel 30 in order to utilize the soil discharged according to the earth pressure,
The soil portion 36 includes the vegetation soil 37 and the vegetation soil 37, which have received the earth and sand pushed out by the soil portion 36 due to an increase in the internal stress due to the incomplete compaction of the filling soil 15; Seed and fertilizer pack 40 impregnated with the seed of the plant for utilization, the soil portion 36 between the vertical portion 35 of the L-shaped steel 30 and the front portion 21 of the steel plate 20 Residual earth pressure induction steel retaining wall structure, characterized in that buried in.
The method of claim 1,
The steel plate 20 is a residual earth pressure induced steel retaining wall structure, characterized in that forming a 횡단 -shaped cross section (not shown)
Constructed on the cut ground at a certain distance along the retaining wall construction surface of the incision site
Prior to the installation of the earth pressure induction steel 17, the concrete foundation 1 is fixed in accordance with the width of the earth pressure induction steel 17 to install the H-shaped steel 2 having the anchor bolt assembly 8 at the lower end thereof. A first step of embedding anchor bolts (7) in the concrete foundation (1) at intervals;
Assembling the H-shaped steel (2) to be mounted on the anchor bolt (7), fastening the nut (9) to the anchor bolt (7), the anchor bolt assembly for the installation of the H-shaped steel ( 8) the second step of constructing the protective concrete (3);
The yaw portion 34 is installed at equal intervals on the horizontal portion 32 of the L-shaped steel 30 so that the front portion 21 of the steel plate 20 can be inserted therein. 34 is formed to the thickness of the steel plate 20 and 1/3 the depth of the horizontal portion 32 of the L-shaped steel 30 to form the front portion 21 of the steel plate 20 to the L-shaped steel 30 L is inserted into the yaw portion 34 provided in the horizontal portion 32 of the c) and is formed along the entire upper and lower surfaces of the front portion 21 of the steel plate 20. A third step of forming a spaced portion 24 formed between an upper and lower sides of the shaped steel 30 and a left and right of the steel plate 20;

A fourth step of reinforcing the strength of the earth pressure-inducing steel 17 by welding the round bar 25 having a “●” shape at an equal interval up and down with respect to the entire area of the rear portion 22 of the steel plate 20;
The soil ground 15 along the soil discharged due to the unstable internal stress of the soil soil 15 along the gap 24 leading to the discharge of soil that is pushed out by the increase of the internal stress of the soil soil 15 The fifth step of stabilizing the ground soil (15) is stabilized because the internal stress of the exclusion together;
Vegetation soil is received by the soil that is pushed out of the fillet ground 15 from the discharging portion 36 formed in the space between the front portion 21 of the steel plate 20 and the vertical portion 35 of the L-shaped steel 30 A sixth step of burying the seed and the fertilizer pack 40 in which the seed of the plant is impregnated in the vegetation soil 37 in order to utilize it as the discharging part 36;
The U-shaped ring 23 is mounted on the front portion 21 of the steel plate 20 forming the earth pressure inducing steel 17, and is installed on the ground soil 15 backfilled between the retaining wall and the incision with a band-shaped reinforcement 26. A seventh step of connecting the fall prevention plate (not shown) and the front part 21 of the steel plate 20 to be embedded;
The backfilled soil ground 15 is compacted with a vibrating roller or a saw compactor, a compaction equipment, and an eighth step configured to include an earth leakage spill prevention unit integrally; construction of the residual earth pressure guided steel retaining wall structure Way.

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