KR102361565B1 - Self-reliant support for retaining wall - Google Patents

Abstract

The present invention relates to self-reliant supports for a retaining wall, which can partially introduce prestress to a lower portion of a support body to minimize the occurrence of active earth pressure on the ground and maximize prestress in the lower portion which the moment by earth pressure acts greatly, thereby enabling stable support without a separate support material, and having no risk of subsidence of the surrounding ground. The self-reliant supports for a retaining wall, which are inserted into drilled holes formed in the ground to be spaced apart from each other in a lateral direction, supporting the earth pressure in the rear surface thereof, comprises: a support body formed of section steel and divided into a lower first section and an upper second section; a first tension member provided on the rear surface of the support body to introduce prestress into the first section of the support body; and a first tension bracket provided in an upper portion of the first section of the rear surface of the support body so that the first tension material is fixed by a tension-side anchor.

Description

Self-reliant support for retaining wall

The present invention partially introduces prestress to the lower part of the holding body, thereby minimizing the occurrence of main earth pressure in the upper part of the ground, and maximizing the prestress in the lower part where the moment due to earth pressure acts greatly, enabling stable support without a separate support material, and It is about a self-supporting prop for retaining use without the risk of ground subsidence.

A retaining wall that installs a temporary structure that resists lateral pressure, such as earth pressure and water pressure, to prevent subsidence or collapse of the surrounding ground or adjacent structures while preventing the inflow of surrounding soil or water into the site when excavating the ground for underground structure construction carry out construction

In conventional retaining construction, a horizontal board pile construction method in which thumb piles such as H piles are rooted into the ground and a retaining plate (earth plate) is installed between adjacent thumb stakes is widely used.

When the retaining wall is installed and ground excavation work is carried out, a multifaceted review must be made on the ground conditions such as stress or deformation of the retaining wall, deformation of the surrounding ground, construction conditions, and the excavation sequence. In order to stably support the lateral pressure, the raker method, the strut method, and the earth anchor method are used.

However, the raker method or the strut method interferes with other processes due to the interference of the raker or strut placed in the field, and the work efficiency is significantly reduced.

The earth anchor method does not have any interference factors within the site, but since the earth anchor must be installed in the adjacent site, it is often not suitable for construction in downtown areas where buildings are close.

Accordingly, a self-supporting retaining method that can support lateral pressure with only the thumb stake itself was developed.

Registered Patent No. 10-1795454 discloses a self-supporting retaining method in which piles are arranged in two rows. In the registered patent, the prestress is introduced to the thumb pile to reduce the bending stress of the thumb pile due to the earth pressure on the back of the excavation, and the same size of the prestress is introduced over the entire length of the thumb pile when the tension member is tensioned. However, in the upper part of the ground, there is no or very little earth pressure acting toward the retaining wall, so the bending moment of the thumb pile acts in the reverse direction, that is, toward the back ground side, resulting in passive earth pressure. And in the lower part, the main earth pressure that moves the earth retainer in the front direction is generated.

That is, passive earth pressure is generated in the upper part, and main earth pressure is generated in the central lower part, so there is a problem that subsidence occurs in the surrounding ground (FIG. 1).

1 is a view showing the moment of the conventional self-supporting retaining method by prestressing, FIG. 1 (a) shows the moment due to earth pressure, FIG. 1 (b) shows the moment by prestressing, in FIG. (c) represents the sum of these moments.

In particular, as the magnitude of the prestress introduced for stable support of the earth pressure increases, the rearward bending moment of the top of the thumb pile increases, and the risk of subsidence of the surrounding ground also increases.

In order to solve the above problems, the present invention minimizes the generation of passive earth pressure in the upper part of the ground and maximizes the prestress in the part where the moment due to the earth pressure acts greatly, so that it is possible to stably support the retaining wall without a separate support material, and We want to provide a self-supporting pole for retaining that has no risk of subsidence.

The present invention according to a preferred embodiment relates to a self-supporting retainer for retaining that is inserted into a perforation hole formed in the ground to be spaced apart from each other in the transverse direction to support the earth pressure of the rear surface, and is composed of a section steel, the first section of the lower part and the first section of the upper part. The holding body divided into two sections; a first tension member provided on the rear surface of the holding body to introduce a prestress into the first section of the holding body; and a first tension bracket provided in the upper portion of the first section of the rear surface of the post main body to fix the first tension material by the tension-side anchorage; The tension-side anchorage has a cylindrical shape with an open front and rear, and a wedge hole having an inclined wedge hole therein, a wedge inserted into the wedge hole of the wedge barrel to fix the tension material, coupled to the rear of the wedge barrel It provides a self-supporting holding post for retaining, characterized in that it is provided between the cap member and the wedge and the cap member inside the wedge barrel through which the tension material is penetrated to be composed of a pressure spring for pressing the wedge forward.

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The present invention according to another preferred embodiment is provided with a fixing bracket in the lower portion of the first section of the rear surface of the post main body to provide a self-supporting post for retaining, characterized in that the lower end of the first tension member is fixed.

The present invention according to another preferred embodiment is further provided with a second tension member fixed to a fixing bracket provided in the lower portion of the first section of the rear surface of the holding body at a lower end of the rear surface of the holding body, and the first tension of the rear surface of the holding body In a position spaced apart from the lower part of the bracket, a second tension bracket to which the second tension material is fixed by the tension-side anchorage is provided. do.

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In the present invention according to another preferred embodiment, turning saddles having a lower end formed in an arc shape are provided in the lower portion of the first section of the rear surface of the holding body, and the lower portion of the first tension bracket of the first tension member is bent upward at the lower end of the turning saddle. It provides a self-supporting post for retaining, characterized in that the end is fixed to the first tension bracket.

In the present invention according to another preferred embodiment, a lower end of the first section of the rear surface of the holding body is provided with turning saddles formed in an arc shape, and a fixing bracket is provided between the first tension bracket and the turning saddle, and the first The first tension bracket lower portion of the tension member is bent upward at the lower end of the turning saddle to provide a self-supporting post for retaining, characterized in that the end is fixed to the fixing bracket.

The present invention according to another preferred embodiment provides a self-supporting post for retaining, characterized in that at least one deflection sphere for increasing the eccentric distance by lifting the tension member in the first section of the rear surface of the post main body.

According to the present invention, it is possible to provide a self-supporting post for retaining that can introduce prestress by the first tension material only in the first section of the lower part of the holding body.

Accordingly, it minimizes the passive earth pressure caused by excessive bending of the holding body toward the rear at the top of the rear surface of the excavation surface and the satiation phenomenon below it, while maximizing the size of the prestress introduced in the lower part where the moment due to the earth pressure acts greatly. It is possible to provide stable support without support materials and to provide self-supporting posts for retaining without fear of subsidence of the surrounding ground.

1 is a view showing a moment of a conventional self-supporting retaining method by prestressing.
Figure 2 is a perspective view showing a first embodiment of the present invention for retaining the self-supporting prop.
Figure 3 is a front view showing a self-supporting post for retaining shown in Figure 2;
Fig. 4 is a diagram showing a moment according to the first embodiment;
Fig. 5 is an enlarged view showing part A of Fig. 2;
Fig. 6 is an enlarged view showing part B of Fig. 2;
Fig. 7 is a front view showing a second embodiment of a self-supporting prop for retaining.
Fig. 8 is an enlarged view showing a portion C of Fig. 2;
Fig. 9 is a perspective view showing a reaction arm;
Fig. 10 is a cross-sectional view showing a spring anchoring type anchorage;
11 is a perspective view showing an embodiment provided with a double fixing plate.
12 is a perspective view showing a third embodiment of a self-supporting prop for retaining.
Fig. 13 is an enlarged view showing a portion E of Fig. 12;
Fig. 14 is a front view showing the self-supporting post for retaining shown in Fig. 12;
Fig. 15 is a perspective view showing a fourth embodiment of a self-supporting post for retaining.
Figure 16 is a front view showing the self-supporting post for retaining shown in Figure 15.
Fig. 17 is an enlarged view showing part D of Fig. 2;
18 is a view showing a tension member supported state by a deflection sphere.
19 is a cross-sectional view showing a tension member supported by a deflection sphere.

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

Figure 2 is a perspective view showing a first embodiment of the present invention for retaining the self-supporting prop for the present invention, Figure 3 is a front view showing the freestanding post for retaining shown in Figure 2, Figure 4 is a moment according to the first embodiment It is a drawing showing And FIG. 5 is an enlarged view showing part A of FIG. 2 .

As shown in FIGS. 2 and 3, the present invention is a self-supporting post for retaining retaining that is embedded in a perforated hole (H) formed in the ground to be spaced apart from each other in the lateral direction to support the earth pressure of the rear surface. , is composed of a section steel, the lower first section (L ₁ ) and the second section (L ₂ ) of the upper holding body (1) divided into; and a first tension member (2a) provided on the rear surface of the post body (1) to introduce a prestress to the first section (L ₁ ) of the post body (1); It is characterized in that it is composed of

The present invention partially introduces prestress to only the lower part of the holding body (1) to minimize the generation of passive earth pressure in the upper part of the ground, while maximizing the prestress in the lower part where the moment due to earth pressure acts greatly. , to provide a self-supporting prop for retaining without fear of subsidence of the surrounding ground.

In the present invention, the self-supporting retainer for retaining is drilled in the ground to form a perforation hole (H) and then is inserted into the perforation hole (H).

In the present invention, the self-supporting prop for retaining is configured to include a post body (1) and a first tension member (2a).

The post body 1 is made of H-beam, etc., and can be used as a thumb pile of a horizontal pile method or a reinforcement pile of a CIP method.

The holding body 1 is divided into a first section (L ₁ ) of the lower portion and a second section (L ₂ ) of the upper section.

The first tension member (2a) is provided on the rear surface of the holding body (1) to introduce a prestress to the holding body (1) by tension.

At this time, the first tension member (2a) is not introduced over the entire length of the holding body (1) tension force is introduced only within the first section (L ₁ ), the first section of the holding body (1) ( The prestress is introduced only in L ₁ ).

Therefore, prestress can be introduced only in the section where the bending moment due to earth pressure is large.

Accordingly, it is possible to minimize the generation of passive earth pressure in the upper part where the earth pressure is small (refer to FIGS. 4 (b) and (c)).

Figure 4 shows the moment when the present invention is applied, (a) and (b) of Figure 4 (a) and (b) represent a moment due to earth pressure and a moment due to prestressing, respectively, Figure 4 (c) represents the sum of these moments.

Preferably, the first tension member 2a is provided in pairs so as to be symmetrical left and right so that eccentricity does not occur when the prestress is introduced.

2, 5, etc., the first tension bracket (2a) on the upper portion of the first section (L ₁ ) of the rear surface of the holding body (1) is fixed by the tension-side anchorage (30) ( 3a) may be provided.

In order to introduce a tension force to the tension member only in the first section (L ₁ ) of the holding body (1), the lower end of the first tension member (2a) is fixed to the lower end of the holding body (1), and the upper end is the first section (L) ₁ ) can be settled by tension in the upper part.

To this end, the first tension bracket 3a to which the first tension material 2a to which the tension is introduced is fixed by the tension-side anchorage 30 is formed above the first section L ₁ , that is, the first section L ₁ and It may be provided at the boundary of the second section (L ₂ ).

The first tension member 2a is fixed to the first tension bracket 3a by the tension-side anchorage 30 in a state in which the tension force is introduced. That is, the first tension bracket 3a becomes a tension end of the first tension member 2a.

Here, the tension end is a position at which the tensioned first tension material 2a is fixed, and the actual tension is made in the upper part of the holding body 1 after backfilling of the perforated hole H for the self-supporting post installation.

FIG. 6 is an enlarged view showing part B of FIG. 2 .

2 and 6, a fixing bracket 5 is provided at the lower portion of the first section L ₁ of the rear surface of the holding body 1, so that the lower end of the first tension member 2a can be fixed. .

A fixing bracket 5 for fixing the lower end of the first tension member 2a may be provided in the lower portion of the first section L ₁ of the rear surface of the post body 1 .

The fixing bracket 5 serves as a fixing end of the first tension member 2a.

The fixing bracket 5 may be provided with a fixing-side anchorage 50 coupled to the end of the first tension member 2a and supported by the fixing bracket 5 .

The fixing bracket 5 may be provided near the front end of the holding body 1 . However, the lowermost fixing position has no significant effect on the retaining wall displacement and is spaced from the tip of the holding body 1 to the upper part by a certain height so that the lower end of the holding body 1 can be cut when a hard rock exists at the bottom of the drilling hole (H). It may be provided with a fixing bracket (5) at the fixed position.

Figure 7 is a front view showing a second embodiment of the self-supporting prop for retaining, Figure 8 is an enlarged view showing the portion C of Figure 2, Figure 9 is a perspective view showing the reaction arm.

7 and 8, the lower end of the rear surface of the holding body 1 is fixed to the fixing bracket 5 provided in the lower portion of the first section (L ₁ ) of the rear surface of the holding body 1 A second tension material (2b) is further provided, and a second tension material (2b) is fixed by the tension-side anchorage (30) at a position spaced apart from the lower portion of the first tension bracket (3a) on the rear surface of the holding body (1). The tension bracket (3b) is provided, the first section (L ₁ ) It can be configured to introduce additional prestress to the lower portion of the section.

The moment due to earth pressure acting on the first section (L ₁ ) of the holding body (1) is different depending on the height even within the first section (L ₁ ).

Therefore, it is preferable to introduce the prestress to correspond to the magnitude of the moment caused by the earth pressure.

To this end, a second tension member 2b may be further provided to introduce additional prestress to some sections within the first section L ₁ .

The moment due to the earth pressure acts relatively larger on the lower side within the first section (L ₁ ). Therefore, the second tension member 2b should be able to introduce additional prestress to the lower side within the first section L ₁ .

That is, in the lower part where the moment generated by the earth pressure within the first section L ₁ is greatest, the prestress is introduced by the tension of the first tension member 2a and the second tension member 2b to generate a large moment. . And in the upper portion of the first section (L ₁ ), the prestress is introduced by the tension force of only the first tension member (2a) to relatively reduce the magnitude of the moment.

As the fixing bracket 5 to which the lower end of the second tension member 2b is fixed, the fixing bracket 5 to which the first tension member 2a is fixed may be used, and it is also possible to provide a separate fixing bracket at a different position. .

On the other hand, the tension of the tension member (2a, 2b) is made in the upper part of the holding body (1) after the backfill of the perforated hole (H) for the self-supporting post installation.

Therefore, in order to tension the tension member (2a, 2b) in the upper part of the holding body (1), the tension member (2a, 2b) is configured to extend a certain length above the tension bracket (3a, 3b), and the second section (L ₂ ) ) may be provided with a reaction arm (4) for tensioning the tension member (2a, 2b) on the upper portion.

8 and 9 , the reaction force plate 4 may have a reaction force plate 41 protruding from one side thereof, and the reaction force plate 41 has a plurality of penetrations through which the tension members 2a and 2b are penetrated. A groove 411 may be formed.

The reaction arm 4 may be used only when the tension member 2a is tensioned. That is, after the prestress is introduced to the post body 1 by tensioning the tension members 2a and 2b, the tension members 2a and 2b are fixed by the tension-side anchorage 30, so the reaction force band ( There is no need to permanently attach 4).

Therefore, the reaction arm 4 can be detachably mounted on the upper end of the holding body (1).

To this end, a locking part 42 is formed on the other side of the reaction arm 4 , and the locking part 42 is hooked on the upper end of the holding body 1 so that the reaction arm 4 is mounted.

Accordingly, the tension member (2a, 2b) is tensioned by mounting the reaction arm (4) on the post to be tensioned, and after the tension work of the tension member (2a, 2b) is completed, moving the reaction arm (4) to the next post is repeated. You can construct while doing it.

10 is a cross-sectional view showing a spring anchoring type anchor.

As shown in (a) to (b) of Figure 10, the tension-side anchorage 30 is a wedge barrel 31 having a wedge hole 311 inclined in cross section therein in a cylindrical shape with an open front and rear, the The wedge 32 is inserted into the wedge hole 311 of the wedge barrel 31 to fix the tension members 2a and 2b, and the wedge 32 is coupled to the rear of the wedge barrel 31, and the tension member 2a, 2b passes through the cap. It may be composed of a member 33 and a pressing spring 34 provided between the wedge 32 and the cap member 33 inside the wedge barrel 31 to press the wedge 32 forward.

In the present invention, the self-supporting post for retaining is introduced into the tension member (2a, 2b) by a hydraulic jack or the like at the top of the self-supporting post after the drilling hole (H) is backfilled in a state inserted into the drilling hole (H). However, since the tension brackets (3a, 3b) to which the tension ends of the tension materials (2a, 2b) are fixed are provided at positions spaced apart from the upper end of the holding body (1) by a predetermined distance, the tension material (3a, 3b) in the tension brackets (3a, 3b) It is not easy to strain 2a, 2b).

Therefore, the tensioning force is introduced by pulling the tensioning materials 2a and 2b from the upper position far away from the tensioning brackets 3a and 3b, and the fixation should be made in the tensioning brackets 3a and 3b.

To this end, a pressure spring 34 is installed at the rear end of the wedge 32 accommodated in the wedge barrel 31 for the tension-side anchorage 30, and the cap member 33 is coupled to the rear end of the wedge barrel 31 to fix the spring. It can be configured as a type anchorage.

The cap member 33 may be screwed to the wedge barrel 31 .

When the tension member 2a, 2b is extended to the upper end of the holding body 1 and the tension member 2a, 2b is pulled by a hydraulic jack, etc., the wedge 32 rises together, and then the pressure spring 34 and the cap member 33. ascent is limited by And, only the first tension member 2a is continuously pulled to introduce prestress (FIG. 10(a)).

When the pressure of the hydraulic jack is lowered after completing the introduction of the pre-stress in this way, the pressure spring 34 pushes the wedge 32 downward so that the wedge 32 is inserted and closely attached to the wedge hole 311 side of the wedge barrel 31, and the wedge 32 ) to fix the tension members (2a, 2b). Accordingly, the tension material (2a, 2b) is fixed in a state in which the tension force is introduced only in the lower part of the tension bracket (3a, 3b) (FIG. 10 (b)).

11 is a perspective view showing an embodiment in which a double fixing plate is provided.

11, the number of tension materials (2a, 2b) fixed to the tension brackets (3a, 3b) or the fixing bracket (5) is large, so the tension side anchorage 30 or the fixed side anchorage 50 is installed. When it is difficult to secure enough space for the tension brackets 3a and 3b or the fixing bracket 5, two fixing plates 301 and 501 are provided in double, so that a plurality of fixing holes can be installed by dividing them into an appropriate number.

In addition, by appropriately adjusting the interval of the fixing plates (301, 501) installed in the doubly, it is also possible to introduce the prestress in multiple stages in the first section (L ₁ ).

12 is a perspective view showing a third embodiment of the self-supporting prop for retaining, FIG. 13 is an enlarged view showing the E part of FIG. 12, and FIG. It is a front view.

12 to 14, the lower portion of the first section (L ₁ ) of the rear surface of the holding body (1) is provided with a turning saddle (6) whose lower end is formed in an arc shape, and the first tension member (2a) The lower portion of the first tension bracket 3a of the is bent upward at the lower end of the turning saddle 6 so that the end may be fixed to the first tension bracket 3a.

Turning saddles 6 may be provided in the lower portion of the first section L ₁ to minimize the tension point when the first tension member 2a is tensioned, and to introduce the tension force symmetrically left and right.

The direction of the first tension member 2a is changed with the turning saddle 6 as a starting point, and both ends are fixed to the first tension bracket 3a.

At this time, when one end of the first tension member 2a is pulled upward while the other end of the first tension member 2a is fixed to the first tension bracket 3a by the fixing-side anchorage 50, etc., the turning saddle ( 6) The first tension member 2a on one side is pulled upward. And the first tension member 2a on the other side integrally connected therewith is pulled downward, and tension is introduced to both sides.

One side of the first tension member 2a may be fixed to the first tension bracket 3a by the tension-side anchorage 30 .

Accordingly, since prestress can be simultaneously introduced to both sides with one tension, rapid construction is possible, and since prestress is introduced symmetrically at the same time, stable construction is possible.

A lubricant may be applied to the outer peripheral surface of the turning saddle 6 so that the first tensioning material 2a in close contact with the turning saddle 6 can slide smoothly when the tensioning members 2a and 2b are tensioned.

Alternatively, when the first tension member 2a is tensioned, the first tension member 2a may be formed of a non-attached steel wire so that the first tension member 2a can slide more smoothly on the turning saddle 6 .

The non-adhesive steel wire can be constructed by covering the outside of the steel wire with a plastic tube. In this case, it is easy to slide the tension members 2a and 2b from the bottom of the turning saddle 6 .

15 is a perspective view showing a fourth embodiment of the self-supporting prop for retaining, and FIG. 16 is a front view showing the self-supporting post for retaining shown in FIG.

15 and 16, the lower portion of the first section (L ₁ ) of the rear surface of the holding body (1) is provided with a turning saddle (6) whose lower end is formed in an arc shape, and the first tension bracket (3a) ) and the turning saddle 6, a fixing bracket 5 is provided, and the lower part of the first tension bracket 3a of the first tension member 2a is bent upward at the lower end of the turning saddle 6, so that the end is fixed It can be fixed to the bracket (5).

In the case of the embodiment in which the turning saddle 6 is provided, the end of the first tension member 2a is fixed at a lower position than the first tension bracket 3a in order to introduce prestress in multiple stages within the first section L ₁ . can

To this end, fixing brackets 5 are provided at the lower portion of the first tension bracket 3a and spaced apart from each other by a predetermined distance, and the end of the first tension member 2a is attached to the fixing bracket 5 by means of a fixing hole 50 or the like. can be fixed

Accordingly, as shown in FIG. 16 , only one strand of the first tension material 2a is provided in the section between the first tension bracket 3a and the fixing bracket 5 , and between the fixing bracket 5 and the turning saddle 6 . The first tension member (2a) is provided with two strands. Therefore, when the first tension member 2a is tensioned, a prestress of twice the magnitude is introduced in the section between the fixing bracket 5 and the turning saddle 6 than in the section between the first tension bracket 3a and the fixing bracket 5. .

FIG. 17 is an enlarged view showing part D of FIG. 2 , FIG. 18 is a view showing a tension member supported state by the deflection sphere, and FIG. 19 is a cross-sectional view showing the tension member supported by the deflection sphere.

17 and 18, in the first section (L ₁ ) of the rear surface of the holding body (1), the deflection sphere (7) for increasing the eccentric distance by lifting the tension members (2a, 2b) is at least one More may be provided.

The magnitude of the bending moment due to earth pressure is not equally distributed over the entire length of the first section (L ₁ ). In this case, it is structurally advantageous to increase the bending moment of the holding body 1 due to the prestress at the point where the bending moment due to the earth pressure is maximum.

Therefore, in the first section (L ₁ ), the tension member (2a, 2b) is lifted near the point where the bending moment due to earth pressure is maximum to increase the eccentric distance by a deflection sphere on the back side of the holding body (1) of the tension members (2a, 2b) (7, deviator) can be installed (FIG. 2, etc.).

The portion where the tension members 2a and 2b are lifted by the deflection sphere 7 induces a greater bending moment in the holding body 1 even by the same tension force. Accordingly, the structural efficiency can be maximized by maintaining the moment caused by the prestress introduced into the post to be similar to the moment acting by the earth pressure.

A plurality of insertion grooves 71 may be formed on one side of the deflection sphere 7 so that the positions of the mounted tension members 2a and 2b can be fixed (FIG. 19).

The tension members 2a and 2b are deflected from the deflection sphere 7 to the top and the center.

A plurality of the deflection spheres 7 may be provided to be spaced apart from each other in the longitudinal direction of the posts.

Since the cross-section of the perforation hole (H) into which the pole is inserted is usually circular, the distance between the pole body 1 and the perforation hole (H) is the farthest from the central section of the cross-section.

Therefore, in order to increase the eccentric distance between the tension members 2a and 2b and the post body 1 , it is advantageous for the tension members 2a and 2b to be positioned on the center side of the support body 1 .

To this end, the insertion groove 71 formed in the deflection sphere 7 may be disposed toward the center so that the tension members 2a and 2b are deflected inward.

In some cases, to increase the tension effect through increasing the eccentric distance of the tension members 2a and 2b, and to increase the rigidity and strength, it is also possible to partially attach the reinforcing plate 11 to the front side of the holding body 1, that is, to the excavation surface side. It is possible ( FIGS. 18 and 19 ).

1: Post body 11: Reinforcement plate
2a: first tension member 2b: second tension member
3a: first tension bracket 3b: second tension bracket
30: tension side anchorage 301: anchorage plate
31: wedge barrel 311: wedge hole
32: wedge 33: cap member
34: pressure spring 4: reaction arm
41: reaction force plate 411: through groove
42: locking part 5: fixing bracket
50: fixing side anchorage 501: fixing plate
6: Turning Saddle 7: Deflector
71: insertion groove H: perforated hole

Claims (8)

It relates to a self-supporting retainer for retaining that is inserted into the perforation hole (H) formed in the ground to be spaced apart from each other in the lateral direction to support the earth pressure of the rear surface,
Consisting of a section steel, the lower first section (L ₁ ) and the second section (L ₂ ) of the upper holding body (1) divided into;
A first tension member (2a) provided on the rear surface of the holding body (1) to introduce a pre-stress to the first section (L ₁ ) of the holding body (1); and
a first tension bracket (3a) provided in the upper portion of the first section (L ₁ ) of the rear surface of the holding body (1) to which the first tension material (2a) is fixed by the tension-side anchorage (30); is composed of
The tension-side anchorage 30 is a wedge barrel 31 having a wedge hole 311 inclined in cross-section in a cylindrical shape with an open front and rear, and the wedge hole 311 of the wedge barrel 31 is inserted into the tension material ( A wedge 32 for fixing 2a and 2b), a cap member 33 coupled to the rear of the wedge barrel 31 through which the first tension member 2a passes, and a wedge 32 inside the wedge barrel 31 ) and a self-supporting post for retaining, characterized in that it is provided between the cap member (33) and consists of a pressing spring (34) for pressing the wedge (32) forward.
delete In claim 1,
In the lower part of the first section (L ₁ ) of the rear surface of the holding body (1), a fixing bracket (5) is provided, and the lower end of the first tension member (2a) is fixed.
In claim 3,
A second tension member (2b) having a lower end fixed to a fixing bracket (5) provided at a lower portion of the first section (L ₁ ) of the rear surface of the holding body (1) is further provided on the rear surface of the holding body (1), and the holding member (2b) is further provided A second tension bracket 3b to which the second tension material 2b is fixed by the tension-side anchorage 30 is provided at a position spaced apart from the lower portion of the first tension bracket 3a on the rear surface of the main body 1, Section (L ₁ ) Freestanding props for retaining, characterized in that the additional prestress is introduced in the lower part of the section.
delete In claim 1,
A lower portion of the first section (L ₁ ) on the rear surface of the holding body (1) is provided with a turning saddle (6) having an arc-shaped lower end, and the lower portion of the first tension bracket (3a) of the first tension member (2a) is A self-supporting post for retaining, characterized in that it is bent upward at the lower end of the turning saddle (6) and the end is fixed to the first tension bracket (3a).
In claim 1,
A lower portion of the first section (L ₁ ) of the rear surface of the holding body (1) is provided with a turning saddle (6) having an arc-shaped lower end, and a fixing bracket (6) between the first tension bracket (3a) and the turning saddle (6). (5) is provided, wherein the lower portion of the first tension bracket (3a) of the first tension member (2a) is bent upward at the lower end of the turning saddle (6) so that the end is fixed to the fixing bracket (5) Freestanding poles for earth retaining.
In claim 1,
In the first section (L ₁ ) of the rear surface of the holding body (1), at least one deflection sphere (7) for increasing the eccentric distance by lifting the tension members (2a, 2b) is provided. landlord.

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