JP5187325B2 - Steel sheet pile retaining wall and design method thereof - Google Patents

Description

  The present invention relates to a steel sheet pile retaining wall that supports a back earth pressure with a steel sheet pile having a bent cross section, and a method for designing a steel sheet pile retaining wall.

As a retaining wall in the civil engineering and construction field, a steel sheet pile retaining wall constructed by connecting steel sheet piles to the left and right is used. In order to improve the cross-sectional performance of such a steel sheet pile retaining wall, a structure in which a steel sheet pile in which H-shaped steel is welded and fixed to a side surface and a steel sheet pile in which H-shaped steel is not fixed has been proposed (for example, , See Patent Document 1).
Further, as the steel sheet pile retaining wall, by providing a retaining wall in which a plurality of steel sheet piles are connected to the back side, and a bearing wall in which a plurality of steel sheet piles are connected to intersect the front end side of the retaining wall. The thing which aimed at the rigidity improvement of a sheet pile retaining wall is also proposed (for example, refer patent document 2).

  By the way, when constructing a building or drainage facility on the front side of the earth retaining wall, the ground near the earth retaining wall W may be excavated as shown in FIG. When the portion B is formed, the step D2 with the back ground G2 is increased, and the back earth pressure P (= P1 + P2) is increased. For this reason, when designing the earth retaining wall, the wall thickness, depth of penetration, etc. of the earth retaining wall W are calculated in consideration of not only the rear earth pressure P1 at the predetermined step D1 but also the increased earth pressure P2. It is common. Therefore, also in the steel sheet pile retaining wall described in Patent Literatures 1 and 2, the size and thickness of the steel sheet pile are calculated for the load in consideration of the increased earth pressure P2, and the size and plate of the H-shaped steel to be fixed by welding. The thickness, the length of the retaining wall and the bearing wall, etc. are calculated.

JP 2006-241816 A Japanese Patent No. 3072065

However, as with conventional steel sheet pile retaining walls, when H-shaped steel is welded and fixed to a steel sheet pile, or when a retaining wall or bearing wall is connected, these H-shaped steel, retaining wall, and bearing wall are steel. Since it protrudes to the back side of the sheet pile retaining wall, there are inconveniences such as the area that can be used effectively on the back side of the site is reduced, and the foundation of the building etc. built in the site and the basement installation area are restricted. End up.
Further, in the conventional retaining wall design method, steel sheet piles, H-shaped steel, retaining walls and bearing walls are designed for the rear earth pressure P (= P1 + P2) in consideration of the increased earth pressure P2. The member size and the plate thickness are increased as compared with the case of designing with respect to the predetermined step, resulting in an inconvenience that the material cost and the construction cost are increased.

  An object of the present invention is to provide a steel sheet pile retaining wall that can be effectively used for a site on the back ground side and can be economically designed against an increase in earth pressure, and a design method thereof. .

  The steel sheet pile retaining wall of the present invention is a steel sheet pile retaining wall that supports a back earth pressure with a steel sheet pile formed in a cross-sectionally bent shape, and a retaining wall main body portion configured by connecting a plurality of the steel sheet piles, And a pair of each of the steel sheet piles connected to the steel sheet piles positioned at both ends of the retaining wall main body and extending to the back side, and each of the pair of steel sheet piles is a site on the back ground side. It is characterized by having a side surface along the boundary line.

  According to the present invention described above, each of the retaining steel sheet piles is connected to both ends of the retaining wall main body, and the side portions of these retaining steel sheet piles are arranged along the site boundary line on the back ground side. Thus, it is possible to prevent the retaining wall, the H-shaped steel, and the like from projecting to the back side at the intermediate position of the retaining wall main body, and to effectively use the site on the back ground side. Moreover, the frictional force of this reserve steel sheet pile and back soil can be obtained by providing a reserve steel sheet pile. Therefore, even when increased earth pressure is generated by excavating the front ground, if the back ground is in a stationary state (static earth pressure state), the soil is caused by the frictional force between the steel sheet pile and the back soil. The increase in pressure can be borne, and the steel sheet pile retaining wall can be economically designed because it is not necessary to increase the size and thickness of the steel sheet pile in the retaining wall main body.

Under the present circumstances, in the steel sheet pile retaining wall of this invention, it is preferable that the some steel sheet pile and the said backup steel sheet pile which comprise the said retaining wall main-body part are comprised with the same kind and the steel sheet pile of the same cross-section one size. .
According to such a configuration, since it is not necessary to prepare a plurality of types of steel sheet piles, it is possible to reduce the labor and cost of parts management, and also commonize the placing machine for placing the steel sheet piles. The labor can be reduced and the construction period can be shortened.

Furthermore, in the steel sheet pile retaining wall according to the present invention, the vertical length of the steel sheet pile is set to be shorter than the vertical length of the steel sheet pile used for the retaining wall main body and to be 1/2 or more of the vertical length dimension thereof. It is preferable that
According to such a configuration, it is possible to make the necessary minimum steel sheet pile length while reliably resisting an increase in earth pressure due to front excavation, and it is possible to economically suppress the deformation of the retaining wall body. Further, since the vertical length of the steel sheet pile is short, the placement time is shorter than the steel sheet pile of the retaining wall main body, and the construction load can be reduced.

Furthermore, in the steel sheet pile retaining wall of the present invention, it is preferable that the steel sheet piles at both ends of the retaining wall main body and the retaining steel sheet pile are connected via a connector, a deformed steel sheet pile or a corner steel sheet pile.
According to such a configuration, the retaining steel sheet pile is connected to the retaining wall main body portion through commonly used connectors, deformed steel sheet piles, and corner steel sheet piles, so that there is no need to use a special placement machine. Since the steel sheet pile can be placed, the workability can be improved.

  On the other hand, the design method of the steel sheet pile retaining wall of the present invention is a design method of any one of the steel sheet pile retaining walls supporting a back earth pressure using a steel sheet pile formed in a cross-sectionally bent shape, Designing a retaining wall main body composed of a plurality of steel sheet piles connected so as to support the back side earth pressure at a predetermined step with the back side, and excavating the front ground further than the predetermined step to increase the step. The increased earth pressure at the time of rolling is connected to the steel sheet piles at both ends of the retaining wall main body part and extends to the back side, and each of the one pair of steel sheet piles and the back soil can be supported by the friction force. It is characterized by designing a steel sheet pile.

  According to the present invention as described above, the retaining wall designed to support the back surface earth pressure at a predetermined level by designing the back steel sheet pile so that the increased earth pressure can be supported by the frictional force between the steel sheet pile and the back surface soil. Since there is no need to increase the size and thickness of the steel sheet pile in the main body, the steel sheet pile retaining wall can be designed economically.

  According to the steel sheet pile retaining wall and the design method of the present invention as described above, the side portions of the steel sheet pile connected to the both end portions of the retaining wall main body one by one along the site boundary line on the back ground side. By arranging it, it is not necessary to provide a member protruding to the back side at the intermediate position of the retaining wall main body part, so that it is possible to effectively use the site on the back ground side, and between the steel sheet pile and the back soil By supporting the increased earth pressure by the frictional force, it is not necessary to increase the size and thickness of the steel sheet pile of the retaining wall main body, so that the steel sheet pile retaining wall can be designed economically.

It is sectional drawing which shows the steel sheet pile retaining wall which concerns on one Embodiment of this invention. It is sectional drawing which shows the said steel sheet pile retaining wall. It is sectional drawing which expands and shows the principal part of the said steel sheet pile retaining wall. It is a figure explaining the earth pressure which acts on a steel sheet pile retaining wall.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
1 to 3, the steel sheet pile retaining wall 1 is used as a retaining wall that supports the earth pressure of the back soil S at a step portion between the front ground G1 and the back ground G2 in an inclined ground. A retaining wall main body 3 that connects the steel sheet piles 2 to the left and right is provided. The steel sheet pile 2 is parallel to the first flange 21 from the first flange 21 located at the center of the cross section, a pair of webs 22 continuing to both side edges of the first flange 21, and the leading edges of the pair of webs 22. A hat-shaped steel sheet pile having a pair of second flanges 23 extending outward and a pair of joint portions 24 provided at the leading edges of the pair of second flanges 23, and joint portions 24 of adjacent steel sheet piles 2. It is connected by engaging each other. In such a steel sheet pile 2, it has the steel sheet pile cross-section height H which is the distance between the outer surfaces of the front side surface of the 1st flange 21, and the back side end surface of the coupling part 24, and this steel sheet pile cross-section height H is steel. It is the wall thickness dimension of the sheet pile retaining wall 1. The steel sheet pile 2 is penetrated by the length dimension L1 from the surface of the back ground G2 into the ground, and the retaining wall main body 3 is configured to have a horizontal length dimension L2 in the left-right direction. The length L2 is preferably 10 m or less in order to suppress the occurrence of deflection at the central portion of the retaining wall that is distant from both ends of the steel sheet pile retaining wall 1.

  The steel sheet piles 2 at both the left and right ends of the retaining wall main body 3 are connected to the steel sheet piles 4 extending to the back side and penetrating into the back soil S. The reserved steel sheet pile 4 is made of a hat-shaped steel sheet pile of the same type and the same cross-sectional size as the steel sheet pile 2, and includes a first flange 41, a pair of webs 42 continuous to both side edges of the first flange 41, and these A pair of second flanges 43 extending in parallel with the first flange 41 from the tip edges of the pair of webs 42 and a pair of joint portions 44 provided at the tip edges of the pair of second flanges 43 are formed. Yes. And the 1st flange 41 and the 2nd flange 43 are provided along the site | part boundary line K in the back ground G2, and the 1st flange 41 is arrange | positioned rather than the 2nd flange 43 in the site | part inner side. ing. Moreover, the joint part 44 of the steel sheet pile 4 is connected with the joint part 24 of the steel sheet pile 2 via the connector 5 having a substantially S-shaped cross section, as shown in FIG. In addition, the reserve steel sheet pile 4 may be connected to the steel sheet pile 2 via a corner steel sheet pile having a deformed steel sheet pile having a bent cross section or a corner joint. Moreover, although the vertical dimension L3 of the steel sheet pile 4 is preferably shorter than the length dimension L1 of the steel sheet pile 2 in terms of economy and workability, it reliably resists increased earth pressure caused by front excavation. As it can, it is desirable that it is 1/2 or more of the up-and-down length dimension L1 of the steel sheet pile 2 used for the retaining wall main-body part 3. FIG.

Hereinafter, the design example of the steel sheet pile retaining wall 1 is shown.
As design conditions, the wall height (predetermined step) D1 of the retaining wall is 3 m, the horizontal length L2 of the retaining wall main body 3 is 10 m, the excavation part B depth D3 of the front ground G1 is 1.5 m, The unit volume weight was 18 kN / m ³ and the N value of the ground was 15. Therefore, the increase in the earth pressure accompanying the excavation of the excavation part B (increased earth pressure P2) is calculated as 506 kN.
The ground was sandy soil, and the frictional force per unit area with the steel sheet pile 4 was set to 30 kN / m ² based on the “Road Bridge Specification (Japan Road Association)”. And if the width dimension of the steel sheet pile 4 is 0.9 m and the vertical dimension L3 is set to 10 m, the frictional force between the steel sheet pile 4 and the back soil S per sheet is calculated as 540 kN, A frictional force of 1080 kN can be obtained with the two preserved steel sheet piles 4. Further, even when the vertical length L3 of the steel sheet pile 4 is set to 5 m, a frictional force of 540 kN is obtained with two sheets, and can exceed the increased earth pressure P2 (= 506 kN).
As described above, by appropriately setting the length of the backup steel sheet pile 4, the increased earth pressure P <b> 2 due to excavation of the excavation part B can be made to exceed the frictional resistance of the reserve steel sheet pile 4, and the increased earth pressure P <b> 2 is reduced. It can be supported by the frictional resistance of the steel sheet pile 4.

According to the above embodiment, the following effects can be obtained.
That is, the steel sheet pile 4 is connected to the retaining wall main body 3 along the site boundary line K on the back ground G2 side so that other members do not protrude to the rear side at an intermediate position of the retaining wall main body 3. Thereby, the site of the back side ground G2 is not pressed, and the site on the back side can be effectively used. Moreover, since the increased earth pressure P2 can be supported by the frictional resistance between the steel sheet pile 4 and the back soil S, the size and thickness of the steel sheet pile 2 of the retaining wall main body 3 need not be increased. Therefore, the steel sheet pile retaining wall 1 can be designed economically.
Furthermore, since the steel sheet pile 2 and the preserving steel sheet pile 4 are composed of steel sheet piles of the same type and the same cross-sectional size, it is not necessary to prepare a plurality of types of steel sheet piles. In addition, the placement machine for placing the steel sheet piles 2 and 4 can be made common, so that construction labor can be reduced and the construction period can be shortened.

In addition, this invention is not limited to the said embodiment, Including other structures etc. which can achieve the objective of this invention, the deformation | transformation etc. which are shown below are also contained in this invention.
For example, in the said embodiment, although the steel sheet pile 2 which consists of a hat-shaped steel sheet pile was illustrated, as a steel sheet pile of this invention, not only a hat-shaped steel sheet pile but other forms, such as a U-shaped steel sheet pile and a Z-shaped steel sheet pile. Steel sheet piles can also be used, and those similar to these steel sheet piles can be used as the steel sheet pile retaining wall main body and the reserved steel sheet pile.
Moreover, each part dimension of the steel sheet pile retaining wall 1 shown in the design example in the said embodiment and various constants of a ground are an example to the last, Comprising: This invention is not limited.

In addition, the best configuration, method and the like for carrying out the present invention have been disclosed in the above description, but the present invention is not limited to this. That is, the invention has been illustrated and described with particular reference to certain specific embodiments, but without departing from the spirit and scope of the invention, Various modifications can be made by those skilled in the art in terms of material, quantity, and other detailed configurations.
Therefore, the description limiting the shape, material, etc. disclosed above is an example for easy understanding of the present invention, and does not limit the present invention. The description by the name of the member which remove | excluded the limitation of one part or all of such restrictions is included in this invention.

  DESCRIPTION OF SYMBOLS 1 ... Steel sheet pile retaining wall, 2 ... Steel sheet pile, 3 ... Retaining wall main-body part, 4 ... Retaining steel sheet pile, 5 ... Connector, 41 ... 1st flange (side part), 43 ... 2nd flange (side part), K ... Site boundary line, S ... Back soil.

Claims (5)

A steel sheet pile retaining wall that supports the back earth pressure with a steel sheet pile formed in a cross-sectionally bent shape,
A retaining wall main body configured by connecting a plurality of the steel sheet piles, and a pair and one each of the retaining steel sheet piles connected to the steel sheet piles located at both ends of the retaining wall main body and extending to the back side; With
Each of the pair of preserving steel sheet piles has a side part along a site boundary line on the back ground side, and is configured to have a steel sheet pile retaining wall. In the steel sheet pile retaining wall according to claim 1,
The steel sheet pile retaining wall, wherein the plurality of steel sheet piles constituting the retaining wall main body portion and the retaining steel sheet pile are composed of steel sheet piles of the same type and the same cross-sectional size. In the steel sheet pile retaining wall according to claim 1 or 2,
The steel sheet pile holder, wherein the vertical length of the steel sheet pile is shorter than the vertical length of the steel sheet pile used for the retaining wall main body and is set to 1/2 or more of the vertical length dimension thereof. wall. In the steel sheet pile retaining wall according to any one of claims 1 to 3,
The steel sheet pile retaining wall is characterized in that the steel sheet piles at both ends of the retaining wall main body part and the retaining steel sheet piles are connected via a connector, a deformed steel sheet pile or a corner steel sheet pile. It is a design method of the steel sheet pile retaining wall according to any one of claims 1 to 4, wherein the rear earth pressure is supported using a steel sheet pile formed in a cross-sectionally bent shape.
Designing a retaining wall main body configured by connecting a plurality of the steel sheet piles so as to be able to support the back side earth pressure at a predetermined step between the front side and the back side,
The increased earth pressure when the level difference is increased by excavating the front ground further than the predetermined level difference is connected to the steel sheet piles at both ends of the retaining wall main body part, and one pair and one each extending to the back side. A design method for a steel sheet pile retaining wall, wherein the steel sheet pile is designed to be supported by a frictional force between the steel sheet pile and the back soil.

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