JP5579628B2 - Anchor member - Google Patents

Description

  The present invention relates to an anchor member used as a foundation or the like of a structure that requires a large resistance to an external force.

Conventionally, various techniques related to an anchor member used as a foundation of a structure have been developed.
For example, in the mountain fastening method described in Patent Document 1, at least two oblique piles are placed in the ground so that each pile head is gathered, and the gathered pile heads are joined by a connecting member. A group pile is used as an anchor member that supports the retaining wall from the inside.

JP 2000-045282 A

By the way, as for each slant pile which comprises the above-mentioned group pile, the pile head is in the state connected with the connection member, but the front-end | tip part is not in the connected state. For this reason, for example, if you want to construct a strong retaining wall, a foundation for an overhead power transmission line tower that receives a strong horizontal force or pulling force, a foundation for a wind turbine for wind power generation, etc. It is necessary to fully incline the slant pile so that the tip of the slant pile does not widen and the tip of the slant pile does not narrow against the pulling force.
However, if it is sufficiently rooted in this way, a pile with a long pile length must be prepared, which may cause problems such as an increase in cost and a prolonged construction period.

  An object of the present invention is to provide an anchor member that can exert a large resistance to external forces such as a vertical force, a pulling force, and a horizontal force, and can prevent an increase in cost and a prolonged construction period. With the goal.

The invention according to claim 1 is an anchor member, which is formed such that the lower edge is wider than the upper edge and at least one side edge is inclined in front view, and is formed on both side edges. A deformed steel sheet pile with joints along,
A plurality of steel sheet piles that are formed in a rectangular shape in front view and have joints along both side edges, and
Among the plurality of steel sheet piles, the steel sheet piles adjacent to both sides of the deformed steel sheet pile are respectively orthogonal to the deformed steel sheet pile in plan view and arranged in accordance with the angle of the side edge of the deformed steel sheet pile. And
These deformed steel sheet piles and the steel sheet piles adjacent to both sides of the deformed steel sheet piles are connected to each other through mutual joints.

The invention according to claim 2 is the anchor member according to claim 1,
Among the plurality of steel sheet piles, one steel sheet pile adjacent to the deformed steel sheet pile and the other steel sheet pile adjacent to the one steel sheet pile are juxtaposed in the same direction and via a joint between them. It is characterized by being connected.

The invention according to claim 3 is the anchor member according to claim 2,
The upper end portion of one steel sheet pile adjacent to the deformed steel sheet pile and the upper end portion of another steel sheet pile adjacent to the one steel sheet pile are connected by a connecting member constructed between the upper end portions of these steel sheet piles. It is characterized by being.

According to the present invention, the steel sheet piles adjacent to both sides of the deformed steel sheet piles are orthogonal to the deformed steel sheet piles in plan view, and are arranged according to the angle of the side edge of the deformed steel sheet piles, The steel sheet piles adjacent to both sides of the deformed steel sheet piles are arranged so that the distance between the sheet piles gradually increases toward the lower end of the deformed steel sheet pile. Moreover, the steel sheet pile adjacent to both sides of these deformed steel sheet piles is connected to the deformed steel sheet pile in a state where the distance between the steel sheet piles gradually increases toward the lower end of the deformed steel sheet pile.
Therefore, even if a vertical force acts on such an anchor member, the steel sheet pile connected adjacent to both sides can be constrained by the deformed steel sheet pile, so that sufficient resistance to the vertical force is exhibited. can do. Moreover, even if horizontal force is applied, among the steel sheet piles adjacent to both sides of the deformed steel sheet pile, axial force such as tension is applied to one steel sheet pile and compression is applied to the other steel sheet pile. Can exhibit sufficient resistance to Moreover, even if the pulling force is applied, the earth weight is also applied together with the friction force, so that a sufficient resistance can be exerted.
As a result, for example, the reaction force can be reliably obtained even on loose ground, etc., so that the length of the deformed steel sheet pile and steel sheet pile placed on the ground can be shortened. Prolonging can be prevented.

It is a top view which shows an example of the anchor member which concerns on this invention. It is AA sectional drawing in FIG. It is explanatory drawing which shows the effect | action of the anchor member with respect to a horizontal force. It is explanatory drawing which shows the effect | action of the anchor member with respect to drawing-out force. It is sectional drawing which shows the engagement state of joints.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a plan view showing an example of an anchor member according to the present invention, and FIG. 2 is a cross-sectional view taken along line AA in FIG. The anchor member 1 of the present embodiment is formed such that the lower edge 2b is wider than the upper edge 2a and at least one side edge 2c is inclined in front view, and both side edges 2c, 2c are formed. And a plurality of steel sheet piles 4, 4... Having a rectangular shape in front view and having joints 5, 5 along both side edges 4 c, 4 c. It is equipped with.
Further, among the plurality of steel sheet piles 4, 4..., The steel sheet piles 4 and 4 adjacent to both sides of the deformed steel sheet pile 2 are orthogonal to the deformed steel sheet pile 2 in plan view, and the deformed steel sheet piles. It arrange | positions according to the angle of the 2 side edge part 2c.
And these deformed steel sheet piles 2 and the steel sheet piles 4 and 4 adjacent to both sides of the deformed steel sheet piles 2 are connected via mutual joints 3 and 5.

  More specifically, the anchor member 1 of the present embodiment is orthogonal to the deformed steel sheet pile 2 on one side edge 2c side of one deformed steel sheet pile 2, and one of the deformed steel sheet piles 2 At least one steel sheet pile 4 arranged in accordance with the angle of the edge 2c at the side end is connected via the joints 3 and 5, and the other of the one modified steel sheet pile 2 is connected. On the side edge portion 2c side, at least one steel sheet pile 4 that is orthogonal to the deformed steel sheet pile 2 and is arranged in accordance with the angle of the edge portion 2c of the other side end of the deformed steel sheet pile 2, It is constituted by connecting through mutual joints 3 and 5.

Moreover, in this Embodiment, the steel sheet piles 4 and 4 adjacent to the both sides of the deformed steel sheet pile 2 are arrange | positioned in a mutually different direction. That is, as shown in FIG. 1, one steel sheet pile 4 is arrange | positioned upwards in the figure, and the other steel sheet pile 4 is arrange | positioned downward in the figure.
Further, the steel sheet piles 4 and 4 adjacent to both sides of the deformed steel sheet pile 2 are connected to other steel sheet piles 4 having the same shape. That is, one or the other steel sheet pile 4 adjacent to the deformed steel sheet pile 2 and the other steel sheet pile 4 adjacent to the one or other steel sheet pile 4 are arranged in parallel in the same direction, and They are connected via joints 5 and 5.

In the present embodiment, these one or other steel sheet piles 4 and other steel sheet piles 4 adjacent to the steel sheet piles 4 are grouped in a set, and hereinafter, a plurality of sheets are grouped together. A group of steel sheet piles 4, 4... Forming a group is referred to as a sheet pile group 6.
That is, the sheet pile group 6 is orthogonal to the deformed steel sheet pile 2 and is arranged in accordance with the angle of the side edge portion 2 c of the deformed steel sheet pile 2. And these deformed steel sheet pile 2 and the sheet pile groups 6 and 6 connect the deformed steel sheet pile 2 and the steel sheet piles 4 and 4 adjacent to both sides of the deformed steel sheet pile 2 through the joints 3 and 5. Are connected by
In this way, a combination of a plurality of steel sheet piles 4, 4... Arranged in parallel in the same direction and combined with the deformed steel sheet pile 2 gives a greater resistance to the external force applied to the anchor member 1. Since it becomes possible to exhibit, the length of the steel sheet piles 4, 4 ... and the deformed steel sheet pile 2 to be laid on the ground G can be made shorter.

Here, as shown in FIG. 2, the deformed steel sheet pile 2 is formed so that the lower edge 2b is wider than the upper edge 2a and the side edges 2c, 2c are inclined in front view. It is trapezoidal in view. Therefore, the steel sheet piles 4 and 4 and the sheet pile groups 6 and 6 adjacent to both sides of the deformed steel sheet pile 2 are arranged in a letter C in front view.
Moreover, in this Embodiment, the cross-sectional shape of the linear deformed steel sheet pile formed in linear form is used. Further, the plate-like main body having a linear cross section and the joints 3, 3 provided along both side edges 2c, 2c of the plate-like main body are integrally formed.
The deformed steel sheet pile 2 is formed so that the cross-sectional shape is unequal over the length direction because the lower edge is wider than the upper edge in a front view. However, the cross-sectional shapes of the joints 3 and 3 are formed to be equal over the length direction of the deformed steel sheet pile 2. That is, the cross-sectional shape of the plate-like main body excluding the joints 3 and 3 is set so that the width dimension gradually increases from the upper end portion to the lower end portion in FIG.

  The deformed steel sheet pile 2 according to the present embodiment uses a linear cross-sectional shape, but is not limited to this, for example, using a U-shaped steel sheet pile formed in a substantially U-shaped cross section. Also good. In addition, a hat-type steel sheet pile having a web, a flange projecting obliquely from both ends of the web, and an arm projecting from the tip of each flange may be used. That is, changes can be made as appropriate without departing from the spirit of the present invention.

As shown in FIGS. 1 and 2, the steel sheet pile 4 of the present embodiment uses a U-shaped steel sheet pile having a substantially U-shaped cross section. The U-shaped steel sheet pile 4 has a web 4a and flanges 4b and 4b projecting obliquely from both ends of the web 4a. The joint 5 is provided at the ends of the flanges 4b and 4b.
The web 4a, the flanges 4b and 4b, and the joints 5 and 5 are integrally formed, and the steel sheet pile 4 is formed so that the cross-sectional shape is equal over the length direction.

  In addition, although the steel sheet pile 4 of this Embodiment uses the U-shaped steel sheet pile, it is not restricted to this, For example, a cross-sectional linear straight steel sheet pile or a hat-type steel sheet pile may be used, Modifications can be made as appropriate without departing from the spirit of the present invention.

As shown in FIG. 5, the joints 3 and 3 of the deformed steel sheet pile 2 are provided in a state of being hooked from both side edges 2 c and 2 c of the plate-shaped main body of the deformed steel sheet pile 2. 4 can be engaged with the joints 5 and 5.
Further, as shown in FIG. 5, the joints 5 and 5 of the steel sheet pile 4 are provided in a state of being hooked from the ends of the flanges 4 b and 4 b, and the joints 3 and 3 of the deformed steel sheet pile 2. Can be engaged. Moreover, the joints 5 and 5 of this steel sheet pile 4 can also be engaged with the joints 5 and 5 of other adjacent steel sheet piles 4, and in this case, as shown in FIGS. The joints 5 and 5 are engaged with each other in a direction in which the 4 and 4 are alternately combined.

The plurality of steel sheet piles 4, 4... Constituting the sheet pile group 6 are connected to each other via the joints 5, 5, but the upper ends of the plurality of steel sheet piles 4, 4. However, it is connected by the connection member constructed between the upper end parts of each steel sheet pile 4,4 ....
As the connecting member of the present embodiment, for example, a steel material such as an angle material is used. However, the present invention is not limited to this, and other steel materials or the upper ends of the steel sheet piles 4, 4. It may be a block including a part, and can be changed as appropriate.
And by connecting the upper end part of several steel sheet piles 4,4 ... with a connection member in this way, since several steel sheet piles 4,4 ... can be connected more firmly, the anchor member 1 is connected. It becomes possible to exert even greater resistance to the applied external force.

In addition, the anchor member 1 of this Embodiment is comprised by connecting the deformed steel sheet pile 2 and the sheet pile groups 6 and 6 which adjoin the both sides of this deformed steel sheet pile 2, and are arrange | positioned in a mutually different direction. However, it is not limited to this.
For example, an anchor member that draws a meander larger than the meandering anchor member 1 shown in FIG. 1 may be used, or an anchor member that draws a smaller meander.
Further, the two opposite shaped steel sheet piles 2 and 2 and the two opposite steel sheet piles 4 and 4 may be connected to form a cylindrical shape, or more shaped steel sheet piles 2, 2... A cylindrical anchor member may be formed using the sheet piles 4, 4.
Moreover, although the steel sheet piles 4 and 4 adjacent to both sides of the deformed steel sheet pile 2 are arranged orthogonally to the deformed steel sheet pile 2, they do not have to intersect strictly at right angles and have a certain angle. It suffices if they are arranged so as to cross each other at an angle close to a right angle.
That is, the anchor member 1 can be appropriately changed without departing from the spirit of the present invention.

The anchor member 1 as described above uses a pile press-fitting and drawing machine for press-fitting and drawing a pile such as a steel sheet pile, or a pile driving machine such as a vibratory hammer for driving a pile such as a steel sheet pile. Embedded in G.
Moreover, the upper end part of the anchor member 1 in the direction in which the steel sheet piles 2 and 4 are placed protrudes from the ground. For example, the foundation of the structure is assembled to the projecting upper end part, or the projecting upper end part itself. Can be used as the basis of a structure.

Moreover, the method of embedding the anchor member 1 in the ground G first press-fits the deformed steel sheet pile 2 into the ground G, for example, by the above-mentioned pile press-fitting and drawing machine. Subsequently, on both sides of the modified steel sheet pile 2, the steel sheet piles 4, 4 are perpendicular to the modified steel sheet pile 2 by a pile press-fitting and drawing machine, and at the angles of the side edges 2 c, 2 c of the modified steel sheet pile 2. Press fit together.
At this time, the steel sheet piles 4 and 4 are press-fitted while the joints 3 and 5 are engaged with each other, whereby the deformed steel sheet piles 2 and the steel sheet piles 4 and 4 adjacent to both sides of the deformed steel sheet piles 2 are combined. Can be linked.
Moreover, when the upper end part of the deformed steel sheet pile 2 initially press-fitted is in a state of projecting to the ground, the joints 3 and 3 provided on both side edges 2c and 2c of the deformed steel sheet pile 2 are also exposed. These joints 3 and 3 can guide the press-fitting locations of the steel sheet piles 4 and 4 adjacent to both sides of the deformed steel sheet pile 2.
Subsequently, the other steel sheet piles 4, 4 are respectively adjacent to the steel sheet piles 4, 4 on both sides of the deformed steel sheet pile 2 and are connected via the joints 5, 5 while being press-fitted by a pile press-fitting and drawing machine. To do.
Thereafter, both when the deformed steel sheet pile 2 is press-fitted and when the steel sheet pile 4 is press-fitted, it is press-fitted while being connected to the existing steel sheet piles 2 and 4 via joints.
The anchor member 1 can be embedded in the ground G as described above.

Next, the effect | action of the anchor member 1 of this Embodiment with respect to external force is demonstrated.
When a vertical load is applied to the anchor member 1, first, the steel sheet piles 4, 4 and the sheet pile groups 6, 6 adjacent to both sides of the deformed steel sheet pile 2 try to be displaced in a direction in which the mutual distance further increases. To do.
At this time, the deformed steel sheet pile 2 and the steel sheet piles 4 and 4 adjacent to both sides of the deformed steel sheet pile 2 are connected via the joints 3 and 5, so The displacement of the adjacent steel sheet piles 4 and 4 and the sheet pile groups 6 and 6 can be restrained by the deformed steel sheet pile 2.

Subsequently, when a horizontal force (rightward arrow in FIG. 3) is applied to the anchor member 1, first, the steel sheet piles 4, 4 adjacent to both sides of the deformed steel sheet pile 2 and the sheet pile groups 6, 6 are arranged. Among them, one steel sheet pile 4 and sheet pile group 6 try to displace in the direction pulled out from the ground G, and the other steel sheet pile 4 and sheet pile group 6 try to displace in the direction pressed into the ground G.
At this time, as shown in FIG. 3, one steel sheet pile 4 and sheet pile group 6 are subjected to a tensile force (downward arrow on the left side in the figure), and the other steel sheet pile 4 and sheet pile group 6 are subjected to compressive force (see FIG. 3). The middle right upward arrow) works and is larger than the bending resistance, so that a strong horizontal resistance can be obtained. Further, the friction force of the ground G acts on the steel sheet piles 4 and 4 and the sheet pile groups 6 and 6.
Therefore, a force opposite to the horizontal force applied to the anchor member 1 acts on the anchor member 1.

Subsequently, when a pulling force is applied to the anchor member 1, the steel sheet piles 4 and 4 and the sheet pile groups 6 and 6 adjacent to both sides of the deformed steel sheet pile 2 are naturally displaced in the direction of being pulled out from the ground G. try to.
At this time, as shown in FIG. 4, the soil weight as well as the frictional force of the ground G acts on the steel sheet piles 4, 4 and the sheet pile groups 6, 6 adjacent to both sides of the deformed steel sheet pile 2 (FIG. 4). Middle left down arrow).

According to the present embodiment, the steel sheet piles 4 and 4 adjacent to both sides of the deformed steel sheet pile 2 are orthogonal to the deformed steel sheet pile 2 in a plan view, and the side edge portion 2c of the deformed steel sheet pile 2 is. , 2c, the steel sheet piles 4 and 4 adjacent to both sides of the deformed steel sheet pile 2 are arranged so that the distance between them gradually increases toward the lower end of the deformed steel sheet pile 2. Will be. Further, the steel sheet piles 4 and 4 adjacent to both sides of the modified steel sheet piles 2 are arranged so that the distance between the steel sheet piles 4 and 4 gradually increases toward the lower end of the modified steel sheet pile 2. Will be linked.
Therefore, even if a vertical force acts on such an anchor member 1, the deformed steel sheet pile 2 can constrain the spread of the steel sheet piles 4 and 4 connected adjacent to both sides. A sufficient resistance can be exhibited. Moreover, even if a horizontal force is applied, among the steel sheet piles 4 and 4 adjacent to both sides of the deformed steel sheet pile 2, an axial force such as tension is applied to one steel sheet pile 4 and compression is applied to the other steel sheet pile 4. As a result, sufficient resistance to horizontal force can be exhibited. Further, even if a pulling force is applied, a sufficient resistance can be exerted because a frictional force is applied.
As a result, for example, a reaction force can be reliably obtained even in a loose ground, so that the lengths of the deformed steel sheet pile 2 and the steel sheet piles 4 and 4 placed on the ground G can be shortened, and the cost is reduced accordingly. It is possible to prevent the increase in the construction period and the construction period.

DESCRIPTION OF SYMBOLS 1 Anchor member 2 Profile steel sheet pile 2a Upper edge 2b Lower edge 2c Side edge part 3 Joint 4 Steel sheet pile 4a Web 4b Flange 4c Side edge part 5 Joint 6 Sheet pile group G Ground

Claims (3)

A deformed steel sheet pile having a lower edge wider than the upper edge in front view and at least one side edge inclined, and having joints along both side edges;
A plurality of steel sheet piles that are formed in a rectangular shape in front view and have joints along both side edges, and
Among the plurality of steel sheet piles, the steel sheet piles adjacent to both sides of the deformed steel sheet pile are respectively orthogonal to the deformed steel sheet pile in plan view and arranged in accordance with the angle of the side edge of the deformed steel sheet pile. And
The modified steel sheet pile and the steel sheet pile adjacent to both sides of the modified steel sheet pile are connected to each other through a joint.   Among the plurality of steel sheet piles, one steel sheet pile adjacent to the deformed steel sheet pile and the other steel sheet pile adjacent to the one steel sheet pile are juxtaposed in the same direction and via a joint between them. The anchor member according to claim 1, wherein the anchor members are connected together.   The upper end portion of one steel sheet pile adjacent to the deformed steel sheet pile and the upper end portion of another steel sheet pile adjacent to the one steel sheet pile are connected by a connecting member constructed between the upper end portions of these steel sheet piles. The anchor member according to claim 2, wherein the anchor member is formed.

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