KR20190005233A - Vertical joint structure of forcing members - Google Patents

Abstract

The vertical joint structure of the forcing member according to the present disclosure is a forcible member side protruding portion protruding from an end side face of one of the forcing members and an end side face of the other forcing member connected in the reclamation direction, A protruding portion formed on at least one of a boundary side of the two forcing members and a side spaced from the boundary, a flat plate portion disposed over the boundary, and a connecting side portion protruding from the flat plate portion toward an end side face of each of the forcing members A connecting member having a projecting portion and having a connection side inclined surface opposed to a force member side inclined surface of the forcing member side projection portion formed on the connecting side projection portion; a state in which a gap is formed between the flat plate portion and the forcing member side projection portion Side slope is pressed against the opposing inclined surface on the side of the forcible member, And a material.

Description

Vertical joint structure of forcing members

This disclosure relates to a vertical joint structure of a forcing member connecting a forcing member in a reclamation direction.

When a plurality of steel sheet piles are vertically jointed, generally, steel sheet piles are welded at the site to form a vertical joint. In this case, as the cross-sectional area of the steel sheet pile increases, the amount of welding increases, and the welding time becomes longer. Particularly, when there are many vertical joint portions, air tends to be prolonged.

For example, Japanese Unexamined Patent Application Publication No. 2011-38288 (hereinafter referred to as Patent Document 1) discloses a steel sheet pile having a steel sheet pile structure capable of reducing air and cost while ensuring rigidity and strength, A joint structure is proposed.

The joint structure of the steel sheet pile disclosed in Patent Document 1 connects vertically a steel sheet pile having a curved cross section. At the upper end of the lower steel sheet pile, a lower joint member protruding from the surface of the web and flange of the steel sheet pile is provided. An upper joint member protruding from the surface of the web and the flange is provided at the lower end of the upper steel sheet pile. The lower joint member and the upper joint member are fixed by the fixing means in a state where the upper edge of the lower side steel pile and the lower edge of the upper side steel pile are in contact with each other.

However, in the joint structure of the steel sheet pile disclosed in Patent Document 1, the bending rigidity of the vertical joint portion is low, and the vertical joint portion tends to be a structural weakness.

SUMMARY OF THE INVENTION Accordingly, the present disclosure has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a forcing member capable of facilitating an operation of connecting a forcing member in a reclamation direction, And to provide a vertical joint structure.

The vertical joint structure of the forcible member which solves the above problems is a forcible member side protruding portion protruding from an end side face of one of the forcing members and an end side face of the other forcing member connected in the reclamation direction, A projecting portion projecting from the flat plate portion to the side surface of each of the forcing members from the flat plate portion disposed over the boundary, the projecting portion having the inclined surface formed on at least one of the boundary side of the both of the forcing members and the side remote from the boundary; A connecting member having a side projecting portion and a connecting side inclined surface opposed to a force member side inclined surface of the forcing member side projection portion formed on the connecting side projecting portion and a connecting member having a gap formed between the flat plate portion and the forcing member side projecting portion Side slope is pushed against the opposed inclined surface on the side of the forcible member And a fixing member.

According to the vertical joint structure of the forcible member according to the present disclosure, it is possible to facilitate the work of connecting the forcible members to each other in the reclamation direction, and to secure sufficient initial stiffness and proof stress.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a forced wall using a vertical joint structure of a forcing member to which the present disclosure is applied. FIG.
2 is a perspective view showing a vertical joint structure of a forcing member to which the present disclosure is applied.
3 is a plan view showing a state in which only a flange portion of a hat-shaped steel sheet pile is connected to a vertical joint structure of a forcible member to which the present disclosure is applied, using a connecting member.
4 is a plan view showing a state in which a U-shaped steel sheet pile is connected to a vertical joint structure of a forcing member to which the present disclosure is applied.
5 is a plan view showing a state in which a Z-shaped steel sheet pile is connected to a vertical joint structure of a forcing member to which the present disclosure is applied.
6 is a plan view showing a state in which a flange portion and an arm portion of a hat-shaped steel sheet pile are connected by a vertical joint structure of a forcible member to which the present disclosure is applied.
7 is a front view showing a connecting member of a vertical joint structure of a forcing member to which the present disclosure is applied.
8 is a rear view showing a connecting member of a vertical joint structure of a forcing member to which the present disclosure is applied.
9 is a side view showing a vertical joint portion of a steel sheet pile in a vertical joint structure of a steel member according to the embodiment to which the present disclosure is applied.
10 is a side view showing a modification of the vertical joint structure of the forcing member to which the present disclosure is applied.
11 is an enlarged view showing a part of Fig.
12 is a side view of a part of a modification showing a connection side projection portion and a force member side projection portion in a double-sided tapered shape in which the tip end side is wider in the vertical joint structure of the forcing member to which the present disclosure is applied.
Fig. 13 is a side view of a part of a modification showing a connection side projection and a force member side projection in a double-sided tapered shape in which both sides are substantially parallel to each other in the vertical joint structure of the forcing member to which the present disclosure is applied.
14 is a side view of the embodiment showing the state before the connecting member is moved from the shaft member passing through the flat plate portion of the connecting member in the vertical joint structure of the forcing member to which the present disclosure is applied.
15 is a side view of the embodiment showing the state after the connecting member is moved in the shaft member passing through the flat plate portion of the connecting member in the vertical joint structure of the forcing member to which the present disclosure is applied.
Fig. 16 is a side view of a modification showing a shaft member that penetrates the connection side projection of the connecting member and abuts the end side surface of the steel sheet pile in the vertical joint structure of the forcing member to which the present disclosure is applied.
Fig. 17 is a side view of a modification showing a shaft member that penetrates through a connection-side projection of a connecting member in a vertical joint structure of a forcible member to which the present disclosure is applied, and which abuts against a plate-like member provided on an end face side of a steel sheet pile.
Fig. 18 is a side view of a modification showing a shaft member penetrating only the end portion of a steel sheet pile in a vertical joint structure of a forcible member to which the present disclosure is applied. Fig.
19 is a side view of a modification showing a shaft member having an end portion of a steel sheet pile and a plate-like member penetrating through a vertical joint structure of a forcible member to which the present disclosure is applied.
20 is a side view of a modification showing the state before the connecting member is moved from the wedge member interposed between the connecting member and the end side face of the steel sheet pile in the vertical joint structure of the forcing member to which the present disclosure is applied.
21 is a side view of a modification showing the state after the connecting member is moved from the wedge member interposed between the connecting member and the end side face of the steel sheet pile in the vertical joint structure of the forcing member to which the present disclosure is applied.
22 is an enlarged view showing a part of Fig.
Fig. 23 is an enlarged view showing a part of Fig. 15. Fig.
Fig. 24 is a partial side view showing the state before the connection member corresponding to Fig. 13 is moved. Fig.
Fig. 25 is a partial side view showing the state after the connection member is moved corresponding to Fig. 13; Fig.
Fig. 26 is a partial side view showing a state before the connection member corresponding to Fig. 12 is moved. Fig.
Fig. 27 is a partial side view showing a state in which the connecting member corresponding to Fig. 12 is moved so that the inner side surface of the connecting side projection and the outer side surface of the side of the side surface of the steel member come close to each other.
Fig. 28 is a partial side view showing a state before the connection member corresponding to Fig. 12 is moved. Fig.
Fig. 29 is a partial side view showing a state in which the connecting member corresponding to Fig. 12 is moved so that the inner side surface of the connecting side projection and the outer side surface of the side surface of the side surface of the side surface of the projection of the urging member are not in contact with each other.
30 is a side view showing a compressive force acting due to a bending load in a vertical joint structure of a forcible member to which the present disclosure is applied.
31 is a side view showing a tensile force acting due to a bending load in a vertical joint structure of a forcible member to which the present disclosure is applied.
32 is a plan view showing an example of using H-shaped steel as a forcing member in the vertical joint structure of a forcible member to which the present disclosure is applied.
33 is a plan view showing an example in which a rectangular steel pipe is used as a forcing member in a vertical joint structure of a forcible member to which the present disclosure is applied.
34 is a plan view showing an example in which a circular steel pipe is used as a forcing member in the vertical joint structure of a forcible member to which the present disclosure is applied.
35 is a plan view showing a modified example in which the ends of a steel sheet pile in the vertical joint structure of the forcing member to which the present disclosure is applied are sandwiched from both sides in the thickness direction.
36 is a perspective view showing a state before a vertical joint portion of a steel sheet pile is vertically jointed in a vertical joint structure of a forcing member according to another embodiment to which the present disclosure is applied.
37 is a perspective view showing a state in which a vertical joint portion of a steel sheet pile is vertically jointed in a vertical joint structure of a forcible member according to another embodiment to which the present disclosure is applied.
38 is a perspective view showing a modification of another embodiment of the vertical joint structure of the forcing member to which the present disclosure is applied.
Fig. 39 is a partial side view showing a connection side projection portion and a force member side projection portion formed as a double-sided tapered shape in another embodiment in a vertical joint structure of a forcible member to which the present disclosure is applied.
40 is a partial side view showing a modification of the vertical joint structure of the forcing member according to another embodiment to which the present disclosure is applied.
Fig. 41 is a side view of a modification showing a shaft member inserted through a hole provided in the connection-side projection portion in another embodiment of the vertical joint structure of the forcing member to which the present disclosure is applied.
42 is a side view of a modification showing a state in which a shaft member inserted in a hole provided in a connecting member passes through a hole provided in an end portion of a steel sheet pile and is screwed to a nut;
43 is a perspective view of a modification showing a state before the connecting member is fixed by a false support member in another embodiment of the vertical joint structure of the forcing member to which the present disclosure is applied.
Fig. 44 is a perspective view of a modification showing a state in which the connecting member is fixed by a supporting member in another embodiment of the vertical joint structure of the forcing member to which the present disclosure is applied. Fig.
Fig. 45 is a partial side view showing the state before the connection member is moved, corresponding to Fig. 39;
Fig. 46 is a partial side view showing the state after the connection member is moved, corresponding to Fig. 39;
47 is a side view showing a state in which the projection height of the connection-side projection portion is formed to be substantially equal to the projection height of the projection member-side projection portion in another embodiment of the vertical joint structure of the forcing member to which the present disclosure is applied.
48 is a partial side view showing the state after the connecting member of Fig. 47 is moved.
Fig. 49 shows a case in which the edge of the front end face of the connection side projection portion abuts the side face of the forcing member side projection in the modified example of the other embodiment of the vertical joint structure of the forcing member to which the present disclosure is applied It is a side view of a part.
50 shows a case in which the edge of the front end face of the forcing member side projection abuts on the side face of the connecting side projection in the modification of the other embodiment of the vertical joint structure of the forcing member to which the present disclosure is applied It is a side view of a part.
Fig. 51 is a cross-sectional view showing a vertical joint structure of a forcible member to which the present disclosure is applied; Fig. 51 is a cross-sectional view of a vertically-joined steel sheet pile having a vertical joint structure formed on a side closer to the boundary between the forcibly- Is a side view showing the vertical joint portion and shows a state before the connecting member is moved in the shaft member passing through the flat plate portion of the connecting member.
52 is a side view showing the state after the connecting member is moved in the shaft member passing through the flat plate portion of the connecting member in Fig.

Hereinafter, a mode for carrying out the vertical joint structure (1) of the forcing member to which the present disclosure is applied will be described in detail with reference to the drawings.

1, the vertical joint structure 1 of this forcing member is formed so as to extend downwardly and downwardly in the ground 8, for example, in a site where a long steel pile 2 can not be installed, Is used to connect the short steel sheet piles (2) buried in the upper part to each other in the reclamation direction (Y) as a plurality of forcing members.

The vertical joint structure 1 of the forcing member connects the forcible members such as a plurality of steel sheet piles 2 in the reclamation direction Y to form the long connecting forcing members 70. [ The vertical joint structure 1 of the forcible member is constructed such that a plurality of forcing members connected in the reclamation direction Y is one connecting forcing member 70 and a plurality of connecting forcing members 70 in the wall width direction Z So that the forcing wall 7 is constructed.

As shown in Fig. 2, the vertical joint structure 1 of the forcible member mainly uses a steel sheet pile 2 such as a hat-shaped steel sheet pile 21 as each forcible member. The vertical joint structure 1 of the forcible member is constructed such that the end 30 of each of the plurality of steel sheet piles 2 in the reclamation direction Y is opposed to the reclamation direction Y, A vertical joint portion 3 is formed in which the end portions 30 of the receding direction Y of the vertical joint portion 3 are connected to each other. This vertical joint part (3) constitutes the boundary between the vertically jointed steel sheet pile (2) and the other steel sheet pile (2).

The vertical joint structure 1 of the forcing member includes a connecting member 5 mounted on the vertical joint portion 3 in the reclamation direction Y of the plurality of steel sheet piles 2, A fixing member 4 using a member 41 or the like and a forcing member side protrusion 60 provided at an end 30 of each steel sheet pile 2. [

3, the steel sheet pile 2 includes a flange portion 2a, a pair of web portions 2b, a pair of arm portions 2c And a pair of joint portions 2d. In the steel sheet piles 2 arranged in the wall width direction Z, the joint portions 2d are fitted and connected to each other.

The steel sheet pile 2 extends in the wall width direction Z to form the flange portion 2a and to form the web portion 2b from each of both ends of the flange portion 2a in the wall width direction Z, The groove portion S is formed. Each of the steel sheet piles 2 has respective arm portions 2c formed from one end of each web portion 2b and respective joint portions 2d formed at the ends of the respective arm portions 2c.

The steel sheet pile 2 is formed in a substantially flat shape on the side faces of the flange portion 2a, the web portion 2b and the arm portion 2c, An end side surface 31 is formed.

The steel sheet pile 2 is not limited to a hat-shaped steel sheet pile 21 but also a U-shaped steel sheet pile 22 or a Z-shaped steel sheet pile 23 ) May be used.

As shown in Fig. 4, the steel sheet pile 2 includes a flange portion 2a, a pair of web portions 2b, a pair of joint portions And the side surfaces of the flange portion 2a and the web portion 2b become the end side surface 31 formed in a substantially flat shape at the end portion 30 in the reclamation direction Y. [

5, when the Z-shaped steel sheet pile 23 is used, the steel sheet pile 2 includes a web portion 2b, a pair of arm portions 2c, And the side surfaces of the web portion 2b and the arm portion 2c are the end side surfaces 31 formed in a substantially flat shape at the end portion 30 in the reclamation direction Y. [

The steel sheet pile 2 is not only provided with the connecting member 5 on the end side surface 31 of the flange portion 2a but also on the web portion 2b or the arm portion 2c The connecting member 5 may be provided on the end side surface 31 of the base plate 31. [ The steel sheet pile 2 in which the hat-shaped steel sheet pile 21 is used has the flange portion 2a and the end side surface 31 of the pair of arm portions 2c, (5) is preferably installed.

7 and 8, the connecting member 5 includes a flat plate portion 51 in which a steel plate or the like is used and a connecting projection portion 50 projecting from the flat plate portion 51 in the recirculating and orthogonal direction X ). The connecting member 5 is formed with a plurality of connecting side protrusions 50 extending continuously in the wall width direction Z. [ The flat plate portion 51 and the respective connection side projection portions 50 are integrally formed by hot extrusion, hot rolling, or cold rolling.

The connecting member 5 is not limited to this, and the plate portion 51 and the connecting-side projection portion 50 may be integrally formed by machining by cutting the heavy plate steel plate. The connection member 5 is made of flat steel or the like as the connection side protrusion 50 and welded to the side face of the steel plate used as the flat plate portion 51 to weld the flat plate portion 51 and the connection side projection portion 50 May be integrally formed.

The flat plate portion 51 is formed in a substantially rectangular shape or the like and has a width dimension B of about 50 mm to 400 mm and a height dimension H of about 200 mm to 400 mm. 9, the flat plate portion 51 has a plate thickness t of about 9 mm to 25 mm and extends from one end portion 30 of the steel sheet pile 2 connected to each other to the other end portion 30, (Y) of the vertical joint portion (3) of the body (2).

The flat plate portion 51 is a portion of the steel sheet pile 2 disposed on one end 30 side and the portion disposed on the other end 30 side of the steel sheet pile 2 is a lower plate portion 51b). At this time, in the flat plate portion 51, one or a plurality of connection side protrusions 50 are formed in each of the upper plate portion 51a and the lower plate portion 51b, and one or a plurality A screw hole 40 is formed.

The connecting projection 50 protrudes from the flat plate portion 51 toward the end side face 31 of the steel sheet pile 2 in the recirculating and orthogonal direction X. [ The connecting members 5 are spaced apart from each other in the reclamation direction Y to form a plurality of connecting protrusions 50 and a plurality of connecting protrusions 50 adjacent to the reclosing direction Y Side groove portion 52 is formed. In the present embodiment, a plurality of connection side projection portions 50 are provided in each of the upper plate portion 51a and the lower plate portion 51b.

11, the protruding portion 50 protrudes most in the recirculation orthogonal direction X, which is the protruding direction, of the connection protruding portion 50 is a protruding portion of the connection protruding portion 50, An inner side surface 50a and an outer side surface 50b which are continuous from the front end surface 50c to the bottom surface of the connection side trench 52 are formed as the second side surface 50c.

The connection side projection portion 50 is disposed so that the inner side surface 50a of the connection side projection portion 50 in the reclamation direction Y is close to the vertical joint portion 3 in the reclamation direction Y. [ The outer side surface 50b of the connection side projection portion 50 in the reclamation direction Y is arranged on the side away from the vertical joint portion 3 in the reclamation direction Y. [ The vertical joint portion 3 is formed to be vertically symmetrical with respect to the boundary.

As shown in Fig. 9, the forcible member side protruding portion 60 projects from the end side surface 31 of each steel sheet pile 2 toward the connecting member 5, and each end portion of each steel sheet pile 2 One or a plurality of forcing member side projections 60 are formed on the side surface 31. [ At this time, a plurality of force member side projection portions 60 spaced apart from each other in the reclamation direction Y are formed in the vertical joint portion 3 of the steel sheet pile 2, and a plurality of force member side projections 60 adjacent to each other in the reclamation direction Y, Side groove portions 62 are formed at portions where the side projecting portions 60 are spaced apart from each other.

As shown in Fig. 9, the forcible member side protruding portion 60 is provided on a plate member 6 such as a steel plate provided by welding or the like on the end portion 30 of each steel sheet pile 2, (60) protrudes from the plate-shaped member (6) in the recirculating and orthogonal direction (X).

A plurality of urging member side projections 60 continuously extending in the wall width direction Z are integrally formed in the sheet member 6 by hot extrusion, hot rolling or cold rolling. Alternatively, the plate member 6 may be integrally formed with the forcible member side projection 60 by machining the heavy plate steel plate by machining. The steel member side projections 60 may be integrally formed on the sheet member 6 by welding a flat steel or the like to be the steel member side projections 60 to the side surface of the steel sheet 6 to be the sheet member 6 .

The reinforcing member side projection 60 is not limited to the plate member 6 provided at the end 30 of each steel sheet pile 2 and may be a plate member such as a steel plate, The steel member 60 as the steel member 60 may be directly welded to the end 30 of each steel sheet pile 2 to form the steel member side projection 60. [ The steel member side protruding portion 60 is formed such that flat steel or the like to be the steel member side protruding portion 60 is directly provided on the end portion 30 of the steel sheet pile 2, (X) toward the connecting member (5).

11, the portion projecting most in the recirculation orthogonal direction X is referred to as a front end face 60c (see FIG. 11) of the urging member side projection 60 in the reclension orthogonal direction X The inner side surface 60a and the outer side surface 60b continuous from the distal end surface 60c to the forced member side groove portion 62 are formed. The inner side surface 60a of the urging member side projection 60 in the reclamation direction Y of the urging member side projection 60 is arranged close to the vertical joint portion 3 in the reclamation direction Y do. The outer side surface 60b of the urging member side projection 60 in the reclamation direction Y is disposed on the side away from the vertical joint portion 3 in the reclamation direction Y. [

The connecting member 5 is slid in the wall width direction Z along the side surface 31 of the steel sheet pile 2 provided with the forcible member side projection 60 as shown in Fig. (3) of a plurality of steel sheet piles (2). At this time, in the connecting member 5, as shown in Figs. 9 and 10, the connecting-side projecting portion 50 is fitted to the forced member side groove portion 62 in which the plurality of the urging member side projecting portions 60 are separated . Further, the force member side projection portion 60 is fitted to the connection side groove portion 52 that separates the plurality of connection side projection portions 50 from each other.

11, the outer side surface 60b on the side remote from the vertical joint portion 3 constituting the boundary of the steel sheet pile 2 to which the vertically-jointed steel sheet pile 2 is joined, The inclined surface with respect to the receding and orthogonal direction X, which is the protruding direction, is a forced member side inclined surface. The inner side surface 60a on the side closer to the vertical joint portion 3 extends in the recirculation orthogonal direction X in the urging member side projection 60. [ The inner surface 60a and the distal end surface 60c of the force member side protrusion 60 are substantially orthogonal to each other and the force member side protrusion 60 has a one- Respectively.

The connection side projection portion 50 is formed in such a manner that the outer side surface 60b on the side adjacent to the vertical joint portion 3 constituting the boundary of the steel sheet pile 2 vertically jointed is formed with respect to the reclamation orthogonal direction X The inclined surface is a connecting side inclined surface, and opposes the outer side surface 60b of the urging member side projection 60. The outer side surface 60b on the side away from the vertical joint portion 3 extends in the recirculation orthogonal direction X in the urging member side projection 60. [ The connection side projection portion 50 has the outer side surface 50b and the distal end surface 50c substantially perpendicular to each other and the connection side projection portion 50 has a one side tapered shape.

The connecting protrusions 50 and the force member side protrusions 60 are formed by inclining both side surfaces 50a, 50b, 60a, 60b in the reclamation direction Y as shown in the modification of Figs. 12 and 13 It may be a double-sided tapered shape.

In the example of Fig. 12, the connection side projection 50 and the force member side projection 60 are formed by inclining the inner side surface 50a and the outer side surface 50b of the connection side projection portion 50 in different directions , The outer side surface 60b and the inner side surface 60a of the forc- ing member side projection 60 are inclined in different directions.

11 and 12, the connecting end protruding portion 50 and the urging member side protruding portion 60 are formed such that the distal end face 50c of the connecting side protruding portion 50 is reclassified from the side of the flat plate portion 51 The width is widened in the direction (Y). The distal end face 60c of the urging member side projection 60 is wider in the reclamation direction Y than the end side face 31 side. 11 and 12, the connection-side projection portion 50 and the urging member-side projection portion 60 are formed as a single-side tapered or double-sided tapered shape in which the front end side in the recirculation orthogonal direction X is wide.

In the example of Fig. 13, the connection-side projecting portion 50 and the force-side member-side projecting portion 60 are formed so that the outer side surface 50b and the inner side surface 50a of the connecting-side projecting portion 50 are substantially parallel, The inner side surface 60a and the outer side surface 60b of the side projecting portion 60 are substantially parallel. At this time, the distal end side of the connection-side protruding portion 50 is connected to the vertical joint portion 3 (3), while the connection-side protruding portion 50 and the urging- ) Side, and this shape is also included in the double-sided tapered shape.

11 to 13, for example, the protrusion width w1 at the distal end side in the recirculating and orthogonal direction X is about 20 mm to 60 mm, and the protruding portion 50 and the urging member- The projection height h of the direction X is set to about 10 mm to 30 mm. At this time, the connection-side projection portion 50 and the force member-side projection portion 60 are formed so that the projection width w1 in the reclamation direction Y on the distal end side of the connection-side projection portion 50, The projection width w1 of the reclamation direction Y in the reclamation direction Y is formed to be substantially equal to each other and the projection height h in the reclension orthogonal direction X is also substantially equal to each other.

The connecting protrusion 50 and the force member side protrusion 60 are formed such that the front end face 50c and the corner portion C of the inner side face 50a or the outer side face 50b of the connection- And is chamfered roughly in a curved shape or in a substantially straight shape by hot extrusion processing. Each of the corner portions C may be chamfered by machining. The connecting protrusion 50 and the forcing member side protrusion 60 are formed so that the tip end face 60c and the corner portion C of the inner side face 60a or the outer side face 60b of the forcing member side protrusion 60 ) Are also chamfered in a substantially curved shape or a substantially straight shape by hot extrusion processing.

The opening width c1 of the connecting side protruding portion 50 and the steel member side protruding portion 60 in the reclamation direction Y on the tip side of the connecting side groove portion 52 or the steel member side groove portion 62 is set to about 10 mm to 50 mm . At this time, the connection protruding portion 50 and the force member side protruding portion 60 are formed so that the total extension lp (= w1 + c1), which is the total dimension of the reconditioning direction Y combined with the connecting protruding portion 50 and the connection- And the total extension lp (= w1 + c1) in the reclamation direction Y including the forcible member side projection portion 60 and the urging member side groove portion 62 are formed to be substantially equal to each other.

The connection-side projection portion 50 and the force member-side projection portion 60 are formed to have substantially the same shape dimensions. As shown in Figs. 11 and 12, the connecting-side protruding portion 50 and the urging-member-side protruding portion 60 are formed as a single-surface tapered surface or a double-sided tapered surface in which the tip side in the recursive- The connection width w2 at the proximal end side in the recirculation orthogonal direction X becomes smaller than the protrusion width w1 at the distal end side in the recirculation orthogonal direction X. [ The spacing width c2 in the reclining direction Y on the inner side of the connecting side groove portion 52 or the forced member side groove portion 62 becomes larger than the opening width c1 of the connecting side groove portion 52 or the forced member side groove portion 62. [ Therefore, by sliding the connecting member 5 in the wall width direction Z along the end side face 31 of the steel sheet pile 2 as described above, Is installed in the vertical joint portion (3).

The connection side projection portion 50 and the force member side side projection portion 60 are formed in the reclamation direction in which the connection side projection portion 50 and the connection side groove portion 52 are combined, Y) and the projection width w1 satisfy the relation defined by the following equation (1). The connecting protrusion 50 and the forcing member side protrusion 60 are formed such that the total extension lp and the protrusion width w1 in the reclamation direction Y in which the forcing member side protrusion 60 and the forcing member side groove 62 are combined, Satisfy the relation defined by the following formula (1).

w1 > lp / 2 ... (One)

The connecting protrusion 50 and the steel member side protrusion 60 are formed such that the protrusion width w1 at the distal end side in the recirculation orthogonal direction X is smaller than the separation width c2 of the connecting side groove portion 52 or the steel member side groove portion 62 And the connecting width w2 at the proximal end side in the recondensing orthogonal direction X is made smaller than the opening width c1 of the connecting side groove portion 52 or the forced member side groove portion 62. [ The inner side surface 50a of the connection side projection portion 50 and the inner side surface 50a of the force member side projection portion 60 can be separated from each other by separating the connection side projection portion 50 and the force member side projection portion 60 in the recirculation orthogonal direction X. [ And the outer side surface 60b is in contact with and pushed into the connected state.

The connection side projection portion 50 and the force member side projection portion 60 are separated from each other by the connection side projection portion 50 and the force member side projection portion 60 before the movement by the shaft member 14 A predetermined gap G is formed. Side projecting portion 50 and at least the connecting-side projecting portion 50 in the state in which the projecting portion 60 of the forking member 60 is fitted in the connecting-side groove portion 52 together with the fitting- And the outer side surface 60b of the urging member side projection 60 are spaced apart from each other in the reclamation direction Y. [

The fixing member 4 moves the connecting member 5 in the recirculating and orthogonal direction X so that the flat plate portion 51 of the connecting member 5 and the urging member side protruding portion 60, The inner side surface 50a of the connecting member 5 is pressed against the inner side surface 60a of the opposing reinforcing member side protruding portion 60 in a state in which the clearance SP in the recirculation orthogonal direction X is formed.

The fixing member 4 mainly uses a shaft member 41 that penetrates through the connecting member 5 and abuts against the side surface 31 of the steel member side projection portion 60 or the steel sheet pile 2 . As the shaft member 41, a bolt threaded through the threaded hole 40 threaded through the connecting member 5 is used, and as another example, a screw, a screw or a type pushpin is used, The projecting end portion 41a of the projecting portion 41 abuts against the projecting portion 60 of the forcing member.

When the screw hole 40 is formed in the connection-side groove 52 of the connecting member 5, the shaft member 41 is provided with the tip 41a such as a bolt, . 16, the screw hole 40 is formed in the connection-side protrusion 50 of the connecting member 5 and the reinforcing member-side protrusion 60 is formed in the steel sheet pile The leading end portion 41a of the bolt or the like may come into contact with the end side surface 31 of the steel sheet pile 2. In this case,

17, a screw hole 40 is formed in the coupling-side projection 50 of the coupling member 5, and the shaft member 41 is integrally formed with the coupling member-side projection 60 As another example of the case where the formed plate member 6 is provided at the end portion 30 of the steel sheet pile 2, the tip end portion 41a such as a bolt may be brought into contact with the plate member 6. [

The shaft member 41 which penetrates the end portion 30 of the steel sheet pile 2 and abuts on the connecting member 5 may be used for the fixing member 4 as shown in Fig. The shaft member 41 may be a bolt threaded into the screw hole 40 threaded through the end portion 30 of the steel sheet pile 2 or may be a screw, A tip end portion 41a of a bolt or the like is brought into contact with the connecting member 5. [

18, when the forcent member side projection 60 is provided directly on the end portion 30 of the steel sheet pile 2, the shaft member 41 is formed so as to extend from the portion that becomes the forcible member side groove portion 62 A screw hole (40) is formed in the end portion (30) of the steel sheet pile (2). The distal end portion 41a of the bolt or the like screwed into the screw hole 40 is brought into contact with the connection side projection portion 50 of the connection member 5. [

19, when the screw hole 40 is formed also in the plate member 6 provided at the end portion 30 of the steel sheet pile 2, the shaft member 41 is made of the steel sheet pile 2, A bolt that penetrates through the end 30 of the plate member 6 and the connecting member 5 may be used.

14, immediately after the connection-side projection portion 50 and the force member-side projection portion 60 are fitted, the distal end portion 41a of the bolt or the like is engaged with the force member side projection portion 60 ), And so on. That is, as shown in Fig. 15, the shaft member 41 is twisted with a bolt or the like screwed into the screw hole 40 of the connecting member 5.

15 to 19, the shaft member 41 acts on the force member side protruding portion 60 by a reaction force or the like caused by torsion from a bolt or the like in which the tip end portion 41a abuts against the force member side protruding portion 60, The connecting member 5 is moved in a direction away from the end side surface 31 of the steel sheet pile 2 in the reclamation orthogonal direction X. [

20 and 21, the fixing member 4 moves the connecting member 5 in the recirculating and orthogonal direction X, and the connecting member 5 and the steel sheet pile 2 A wedge member 42 interposed between the end side faces 31 may be used. The wedge member 42 is provided on both sides of the restricting direction X with respect to the connecting member 5 and the wedge member 42 is provided on both sides of the restricting direction X. In this case, .

The wedge member 42 is formed into a substantially wedge shape having a larger plate thickness in a tapered form from the leading portion 42a that is formed in advance between the connecting member 5 and the end side face 31 of the steel sheet pile 2 .

20, the wedge member 42 is provided on the side surface of the connecting member 5 and the end surface side of the steel sheet pile 2, immediately after the connection-side projection portion 50 and the steel member side projection portion 60 are fitted to each other, And the leading portion 42a is interposed between the front portion 31 and the leading portion 42a. 21, the wedge member 42 is further inserted between the connecting member 5 and the end side face 31 of the steel sheet pile 2, and the wedge member 42 is inserted between the connecting member 5 and the end side face 31 of the steel sheet pile 2, (5) in a direction away from an end side (31) of the base (2).

The shaft member 41 shown in Figs. 14 to 19 or the wedge member 42 shown in Figs. 20 and 21 is used solely in the fixing member 4, 41 and the wedge member 42 may be used in combination so as to move the connecting member 5 in the recirculating and orthogonal direction X. [

22, the fixing member 4 is provided on the side of the connecting-side projecting portion 50 in the state before the connecting member 5 is moved in a direction away from the end side surface 31 of the steel sheet pile 2. [ The inner side surface 50a and the outer side surface 60b of the urging member side projection 60 are spaced from each other in the reclamation direction Y. [ 23, the connecting member 5 is moved in the direction away from the end side surface 31 of the steel sheet pile 2. The fixing member 4 is connected to the connection side projection 50, The inner side surface 50a of the protrusion 60 and the outer side surface 60b of the urging member side protrusion 60 come close to each other in the reclamation direction Y. [

22 and 23, when each of the connection-side projecting portion 50 and the forcing member-side projecting portion 60 is formed as a one-side tapered shape, the fixing member 4 is provided with the connecting- And the outer side surface 60b of the urging member side projection 60 are brought close to each other until they come into contact with each other.

24 and 25, even when each of the connecting-side protruding portion 50 and the urging-member-side protruding portion 60 is formed as a substantially parallelepiped-side tapered surface, the fixing member 4 can be connected The inner side surface 50a of the side projection portion 50 and the outer side surface 60b of the urging member side projection portion 60 are brought close to each other until they come into contact with each other.

26 to 29, even when each of the connection-side projection portion 50 and the force member-side projection portion 60 is formed into a wide-tapered double-sided tapered shape, The inner side surface 50a of the reinforcing member side protrusion 60 and the outer side surface 60b of the reinforcing member side protrusion 60 are brought close to each other.

26, the inner side surface 50a of the connection-side projecting portion 50 and the outer side surface 50a of the urging member-side projecting portion 60 are positioned in the state before the connecting member 5 is moved, The gap G between the outer side surface 50b of the connection side projection 50 and the inner side surface 60a of the side surface 60a of the force member side is made smaller than the gap G spaced from the side surface 60b.

27, the inner surface 50a of the connecting-side protrusion 50 and the inner surface 50a of the forcing-member-side protrusion 60, as shown in Fig. 27, And the outer surface 60b are brought close to each other until they come into contact with each other.

28, the inner side surface 50a of the connection side projection portion 50 and the outer side surface 60b of the urging member side projection portion 60 are spaced apart from each other The gap G may be larger than the gap G between the outer side surface 50b of the connection side projection 50 and the inner side surface 60a of the urging member side projection 60.

29, the inner surface 50a of the connection-side protrusion 50 and the inner surface 50a of the forcing-member-side protrusion 60, as shown in Fig. 29, The outer side surfaces 60b are brought close to each other but not in contact with each other.

The gap G between the inner side surface 50a of the connecting side protrusion 50 and the outer side surface 60b of the urging member side protruding portion 60 before the connecting member 5 is moved, The gap G between the outer side surface 50b of the side projection portion 50 and the inner side surface 60a of the urging member side projection portion 60 may have the same size as each other. At this time, in the state after the connecting member 5 is moved, both sides of the connecting-side protruding portion 50 and the pressing-member-side protruding portion 60 are made to approach each other until they come into contact with each other.

Side projection portion 50 of the connecting member 5 is disposed in the force member side groove portion 62 between the plurality of the urging member side projections 60 arranged in the reclamation direction Y and the connecting- Side projecting portion 60 is disposed on the connection-side groove portion 52 between the first and second projecting portions.

The connecting protruding portion 50 disposed in the forc- ing member side groove portion 62 between the urging member side protruding portions 60 is disposed in a direction away from the vertical joint portion 3, for example, as shown in Fig. 11 The relief in the direction away from the vertical joint portion 3 is restricted by the protruding portion 60 serving as the stopper.

The steel member side projections 60 disposed in the direction away from the vertical joints 3 refer to steel plate side projections 50 on which the inner side surface 50a of the connection side projections 50 is pushed Side projections 60 arranged in a direction away from the vertical joints 3, as shown in Fig.

The stopper does not show only the case where the inner side surface 60a of the urging member side projection portion 60 is in contact with the outer side surface 50b of the connection side projection portion 50. [ For example, even when the inner side surface 60a of the forcing member side projection 60 is spaced from the outer side surface 50b of the connection side projection portion 50, when the connection side projection portion 50 is tumbled, 50) so that the relief can be regulated.

(Action)

The vertical joint structure 1 of the forcing member has a structure in which the coupling protrusion 50 and the force member side protrusion 60 are formed by forming the gap G in which the coupling protrusion 50 and the force member side protrusion 60 are separated from each other, Can be fitted smoothly. As described above, the vertical joint structure 1 of the forcing member can smoothly insert the plurality of steel sheet piles 2 in the reclamation direction Y by facilitating the fitting operation of the connecting-side projecting portion 50 and the urging- It is possible to easily and quickly carry out the operation of connecting to the vehicle.

1, when the plurality of steel sheet piles 2 are buried in the ground 8 or when a plurality of steel sheet piles 2 are stacked in the ground 8 , A bending load acts on the vertical joint portion 3 connecting the plurality of steel sheet piles 2. [

As shown in Fig. 2, the vertical joint structure 1 of the forcing member is formed by sliding the connecting member 5 to receive the connecting-side protrusion 50 and the forcing-member side protrusion 60 with a fitting load Beginning immediately after the initial state, a sufficient bending stiffness of the same level as that of two steel sheet piles is provided at the vertical joint portion (3).

30, the vertical joint structure 1 of the forcible member to which the present disclosure is applied has a compressive force (in the direction of approaching a plurality of steel sheet piles 2 in the reclamation direction Y) P) function. The end face 30a of the end portion 30 of each steel sheet pile 2 is inserted into the vertical joint portion 3 from the state immediately after the connection side projection portion 50 and the steel member side projection portion 60 are fitted It is possible to transmit the compressive force P to each other in a plurality of steel sheet piles 2. [ Even if there is a slight clearance between the end faces 30a of the steel sheet piles 2, it is possible to prevent the steel sheet piles 2 from being damaged when the end faces 30a of the steel sheet piles 2 come into contact with each other at the time of inputting a bending load. It is possible to transmit the compressive force P to each other.

31, a tensile force T due to the bending load acts in a direction in which the plurality of steel sheet piles 2 are spaced from each other in the reclamation direction Y. Further, as shown in Fig. 22 to 27, the connecting member 5 is moved by the fixing member 4 in the vertical joint structure 1 of the forcing member to which the present disclosure is applied, And the outer side surface 60b of the urging member side projecting portion 60 are in contact with each other until they come into contact with each other.

Here, the outer side surface 60b of the urging member side projection 60 is inclined with respect to the direction of orthogonal recirculation X, and the inner side surface 50a of the connection side projection portion 50, which is pushed against the outer side surface 60b, Is also inclined with respect to the restructuring orthogonal direction (X).

The vertical joint structure 1 of the forcing member to which the present disclosure is applied is formed such that the inner side surface 50a of the connection side projection portion 50 abuts on the outer side surface 60b of the urging member side projection portion 60, The rattling caused by the rust is eliminated. Therefore, it is possible to transmit the tensile force T (see FIG. 31) from the steel sheet piles 2 through the flat plate portion 51 of the connecting member 5 immediately after the tensile force T acts.

As described above, it is possible to transmit the compressive force P and the tensile force T immediately after the connecting-side protruding portion 50 and the urging-member-side protruding portion 60 are fitted or at a comparatively early stage. Therefore, it is possible to smoothly insert the plurality of steel sheet piles 2 in the reclamation direction (the direction of rotation) by the connecting member 5 having the flat plate portion 51, while smoothly fitting the connecting side protrusion 50 and the steel member side protrusion 60 Y). In other words, as compared with the case in which the strength is exerted by the shearing force of the bolt for vertically jointing the steel sheet piles 2, it is possible to exert a large proof stress as the tensile force of the flat plate portion 51, so that sufficient initial bending rigidity can be ensured .

The vertical joint structure 1 of the forcing member to which the present disclosure is applied ensures sufficient initial bending stiffness at the vertical joint portions 3 of the plurality of steel sheet piles 2 and the vertical joint portions 3 of the plurality of steel sheet piles 2 3) is unlikely to be a structural weakness. Compared with the case where the steel sheet piles 2 are welded to each other at the vertical joint portion 3 or when the steel sheet piles 2 are vertically jointed by the shearing force of a plurality of high-strength bolts or the frictional bonding force at the time of fastening, It is possible to avoid a decrease in the bending rigidity of the vertically-jointed steel sheet pile 2 as a whole.

In this state, the coupling-side projection portions 50 disposed in the coupling member side groove portions 62 between the coupling member side projection portions 60 are arranged in such a manner that the coupling member side projection portions 50, which are disposed in the direction away from the vertical joint portion 3 60 function as a stopper to restrict the relief in a direction away from the vertical joint portion 3. [

Therefore, even if the tension T from the urging member side protruding portion 60 acts as a force for deforming the connecting side protruding portion 50, the urging member side protruding portion 60 It is possible to restrain the connection-side projection 50 from falling.

This makes it possible to suppress the opening of the connecting side groove portion 52 formed between the one of the urging member side projections 60 and the other of the urging member side projections 60 with the vertical joint portion 3 as a boundary. Therefore, as compared with the case where a plurality of the urging member side projection portions 60 are simply provided, the load resistance can be improved and the unexpected disengagement of the connecting member 5 can be suppressed.

14 to 19, a vertical joint structure 1 of a forcible member to which the present disclosure is applied is formed by using a shaft member 41 such as a bolt as a fixing member 4 and screw holes 40 The bolt or the like, which is threadedly engaged with the projecting portion 60, or the like. At this time, the front end portion 41a of the shaft member 41 abuts against the urging member side projection 60 or the like, thereby suppressing the lateral slippage of the coupling-side projecting portion 50 and the urging-member-side projecting portion 60, 5 from being unexpectedly dropped.

20 and 21, the wedge member 42 interposed between the connecting member 5 and the end side surface 31 of the steel sheet pile 2 is fixed to the fixing member 4, the connecting member 5 can be moved in the recirculation orthogonal direction X. [ In this case, a drilling operation for the connection member 5 and a screwing operation such as a bolt and the like are not required, so that the structure for moving the connection member 5 can be easily realized.

It is preferable to chamfer the corner portion C in the connection-side projection portion 50 and the steel member side projection portion 60 by hot extrusion processing, if necessary, as shown in Figs. 11 to 13. This makes it possible to facilitate the hot extrusion processing of the corner portion C of the connection side projection portion 50 and the side wall portion 60 of the forcing member 60. The connection side projection portion 50 and the force member side projection portion 60, It is possible to improve the workability of the substrate.

When the connection side protrusion 50 and the force member side protrusion 60 are formed to have substantially the same shape and the tip side is a wide one-side tapered or double-side tapered shape, the connection side protrusion 50 and the connection- The total extension lp and the projection width w1 of the reclamation direction Y, which is the sum of the widths of the projections 52 and the projections 52, satisfies the above formula (1). In this case, it is possible to prevent the coupling-side projection portion 50 and the force-element-side projection portion 60 from separating from the fitting state in the recirculation and orthogonal direction X. [

In the vertical joint structure 1 of the forcible member to which the present disclosure is applied, a plurality of force members having a specific cross-sectional shape are connected in the reclamation direction Y, but the present invention is not limited thereto. For example, a steel sheet pile 2 such as a hat-shaped steel sheet pile 21 having a substantially hat-shaped section shown in Figs. 3 to 5 may be used as a forcing member. 32, an approximately H-shaped H-shaped steel 24 having a cross section shown in Fig. 32, a rectangular steel pipe 25 having a substantially rectangular cross section shown in Fig. 33, or a substantially circular round steel pipe 26 ) May be used as a forcing member and connected to the reconditioning direction (Y).

Since the connecting member 5 has the flat flat plate portion 51, the manufacturing and machining are facilitated and the workability in the vertical joint is improved as compared with the case where the connecting member 5 is formed in an arc shape. When the circular steel pipe 26 is vertically jointed, vertical joints can be provided at a plurality of places spaced apart in the circumferential direction. Therefore, the workability is improved as compared with the case where the entire circumference of the round steel pipe 26 is vertically jointed by the connecting member 5.

As shown in Fig. 6, one connecting member 5 is laid on the end portion 30 of the steel sheet pile 2, and, for example, as shown in Fig. 35, Two connecting members 5 may be provided so as to sandwich the end portion 30 of the connecting member 5 in the direction of the recirculation orthogonal direction X. The position and the number of the connecting members 5 may be arbitrary.

Next, another embodiment for carrying out the vertical joint structure (1) of the forcing member to which the present disclosure is applied will be described in detail with reference to the drawings. The same components as those of the above-described components are denoted by the same reference numerals, and the description thereof will be omitted.

As shown in Figs. 36 and 37, the vertical joint structure 1 of the forcing member to which the present disclosure is applied is provided with a plurality of connection side projections 50 and a plurality of force member side projections 60 Is formed.

The fixing member 4 is formed in a state in which the force member side protrusion 60 is fitted in the connection side groove 52 between the connection side protrusions 50 or in the state in which the force member side groove portion Side protruding portion 50 is engaged with the protruding portion 62 of the second protruding portion 50. [

In this embodiment, the connecting member 5 is moved in the direction (arrow in Fig. 36) approaching the end side face 31 of the steel sheet pile 2 in the recirculation orthogonal direction X, The side surfaces 50a and 50b abut against the side surfaces 60a and 60b of the urging member side projection 60 (see FIG. 39). At this time, a compressive force acts on the connection-side protruding portion 50 from the connecting member 5 side toward the steel sheet pile 2 side. The connecting protrusion 50 of the connecting member 5 is stuck to the vertical joint portion 3 of the steel sheet pile 2 in a state in which it is caught by the protrusion 60 on the side of the steel member.

36 and 37 show the case where the forcussion member side projection portion 60 is provided on the plate member 6 provided at the end portion 30 of each steel sheet pile 2, the present invention is not limited thereto. For example, as shown in a modified example of Fig. 38, a flat steel or the like serving as the forcing member side projection 60 may be directly welded to the end portion 30 of each steel sheet pile 2.

As shown in Figs. 39 and 40, the connection-side projecting portion 50 and the urging-member-side projecting portion 60 are provided on the side surfaces 50a and 50b of the connection-side projecting portion 50 and the projecting portions 60 are formed in a tapered shape which is inclined with respect to the recirculation orthogonal direction X. [

The connection side projection portion 50 has a shape in which the side of the flat plate portion 51 is wider in the reclamation direction Y than the side of the front end surface 50c. The force member side projection 60 has a shape in which the side of the end side face 31 is wider in the reclamation direction Y than the side of the end face 60c. In other words, the shapes of the connection-side protrusion 50 and the force-side member protrusion 60 in the Z direction are trapezoidal in which the distal end faces 50c and 60c are short sides.

The connecting side protruding portion 50 and the pressing member side side protruding portion 60 are formed in a manner that the side surfaces 50a, 50b, 60a and 60b are inclined in the recirculation orthogonal direction X, Lt; / RTI > At this time, the connection-side projection portion 50 and the force member-side projection portion 60 are formed so that the inner side surface 50a and the outer side surface 50b of the connection-side projection portion 50 are inclined in different directions, The inner side surface 60a and the outer side surface 60b of the projection 60 are inclined in different directions.

The connection side projection portion 50 and the force member side projection portion 60 are formed in such a manner that the inner side surface 50a of the connection side projection portion 50 and the outer side surface 60b of the force member side projection portion 60 extend in the direction (X), the present invention is not limited to this. 40, the outer surface 50a of the connection-side protrusion 50 and the inner surface 60a of the forcing member-side protrusion 60 are arranged in a direction perpendicular to the recirculation direction Or a single-sided tapered surface inclined with respect to the X direction.

39 and 40, the fixing member 4 penetrates the hole 5a provided in the connecting member 5 and is inserted into the hole 60d provided in the urging member side projection 60 A penetrating shaft member 41 is used. 41, the hole 30b provided in the end 30 of the steel sheet pile 2 is inserted and inserted into the hole 50d provided in the connection-side projection portion 50, . Here, the insertion through does not penetrate, but shows a state in which it is inserted into a part.

As shown in the modified example of Fig. 40, for example, a bolt or the like is used as the shaft member 41, and the hole 60d provided in the screw member-side forced member side projection 60, And is screwed into the hole 50d provided in the connection-side projection portion 50, as shown in Fig. At this time, whether or not the hole 5a provided in the connecting member 5 through which the bolt or the like penetrates or the hole 30b provided in the end portion 30 of the steel sheet pile 2 is threaded is optional.

42, a bolt or the like is inserted into a hole (not shown) provided in the end portion 30 of the steel sheet pile 2 from a hole 5a provided in the connecting member 5 30b, and may be screwed to the nut 43 or the like. At this time, it is arbitrary whether or not the hole 5a provided in the connecting member 5 and the hole 30b provided in the end portion 30 of the steel sheet pile 2 are thread-cut.

The hole 5a provided in the connecting member 5 or the hole 30b provided in the end portion 30 of the steel sheet pile 2 may be formed to be larger than the shape of the shaft member 41 do.

As a result, when the shaft member 41 moves the connecting member 5, the side surfaces 50a and 50b of the connection-side projection portion 50 and the side surfaces 60a and 60b of the force member- It is possible to adjust the position of the connecting member 5 in the reclamation direction Y so that the connecting member 5 abuts. It is also possible to easily realize at least any of the state in which the projecting member 60 is fitted to the connection side groove 52 or the state in which the connection projection 50 is fitted to the member side groove 62 .

The hole 5a provided in the connecting member 5 or the hole 30b provided in the end portion 30 of the steel sheet pile 2 is provided with an elongated hole . In this case, when the shaft member 41 moves the connecting member 5, the range of the adjustable position of the connecting member 5 in the reclining direction Y can be widened. Thereby, at least any of the state in which the projecting portion 60 of the force member is fitted to the connection side groove portion 52, or the state in which the connection side projection portion 50 is fitted to the force member side groove portion 62 It can be easily realized.

43 and 44, the vertical joint structure 1 of the forcible member to which the present disclosure is applied is configured such that, in a state in which the connecting member 5 is in close proximity to the urging member side projection 60, For example, a part of the connecting member 5 may be fixed in a state of being abutted against the urging member side protruding portion 60.

For example, a Z-shaped steel material is used as the support member 44, and a pair of support members 44 are provided by sandwiching the projecting member 60 in the reclamation direction Y in the reclining direction. One end of the support member 44 is fixed to the end side surface 31 of the steel sheet pile 2 by bolts or the like and one end of the support member 44 is rotatable about the bolt or the like . 44) by bringing the other end of the supporting member 44 into contact with the connecting member 5 in a state in which the connecting member 5 is brought close to the urging member side projection 60, ) Fixes the connecting member 5 in the reclining direction Y

The shaft member 41 is passed through the hole 5a provided in the connecting member 5 as shown in Fig. 45 after the connecting member 5 is fixed by the holding member 44, Is inserted and fixed in the hole (60d) provided in the urging member side projection (60). A part of the shaft member 41 is temporarily fixed to the connecting member 5 while being screwed to the hole 60d provided in the projecting portion 60 of the screw member.

The vertical joint structure 1 of the forcible member to which the present disclosure is applied can be formed in a state in which the connecting member 5 is brought close to or abutted against the urging member side projection 60 without using the supporting member 44 or the like It may be temporarily fixed by the shaft member 41 and fixed.

Then, as shown in Fig. 46, the shaft member 41 is twisted into the hole 60d provided in the forcible member side projection portion 60. Then, as shown in Fig. At this time, the shaft member 41 is in a state in which the force member side protrusion 60 is fitted to the connection side groove portion 52 or the state in which the connection side protrusion 50 is fitted to the force member side groove portion 62 The connecting member 5 is moved in a direction approaching the end side face 31 in the recirculation orthogonal direction X so as to be at least a certain state. At this time, the coupling-side projection portion 50 and the adjacent two of the forcing-member side projection portions 60 are brought into contact with each other.

When the shaft member 41 is twisted in the hole 60d provided in the urging member side projection 60, the inner side surface 50a of the connecting side projecting portion 50 and the urging member side projecting portion 60, which are adjacent to each other, Or the outer side surface 50b of the connecting side projection 50 adjacent to the outer side surface 60b and the inner side surface 60a of the urging member side projection 60 may be brought into contact with each other.

At this time, an area where the inner side surface 50a of the adjacent connection-side protrusion portion 50 and the outer side surface 60b of the urging member side projection portion 60 are in contact with each other or the outer surface 50b of the connection- The shaft member 41 is moved in the direction of approaching the end side face 31 in the recirculation orthogonal direction X so that at least any of the areas in contact with the inner side surface 60a of the urging member- ).

The shaft member 41 is twisted into the hole 60d provided in the forcible member side projection 60, and then further tightened. Then, the shaft member 41 applies a compressive force to the connecting member 5 from the connecting member 5 side toward the steel sheet pile 2 side. As a result, a frictional force is generated at the abutting portions of the two projecting members 50 adjacent to the connecting projection 50 and the projecting portion 50 of the connecting projections 60 abuts against the adjacent two of the projecting portions 60. [ In the reclamation direction (Y). At this time, the distal end surface 50c of the connection-side protrusion 50 may be spaced apart from the forcing member side groove 62, and the distal end surface 60c of the forcing member-side protrusion 60 may be spaced apart from the connection- do.

As shown in Figs. 47 and 48, the protruding height h1b of the connection-side protruding portion 50 and the urging member-side protruding portion 60 in the recirculating-orthogonal direction X of the connecting- The protrusion height h1a of the side protruding portion 60 in the reclension orthogonal direction X may be substantially equal to the protrusion height h1a. The minimum separation width c2a which is the minimum groove width of the forcing member side groove portion 62 is formed so as to be equal to or smaller than the projection width w1b of the receding direction Y in the front end face 50c of the connection side projection portion 50. [ Or the minimum spacing width c2b which is the minimum groove width of the connection side groove portion 52 is formed so as to be equal to or smaller than the projection width w1a of the receding direction Y in the front end surface 60c of the urging member side projection portion 60. [

In this case, when the fixing member 4 moves the connecting member 5, the edge of the distal end face 50c of the connecting-side protruding portion 50 comes into contact with the edge of the forcible member side groove portion The sides 50a and 50b of the connection-side projection 50 abut on the respective side surfaces 60a and 60b of the adjacent two of the forcussion member side projections 60 (Fig. 49 Reference).

When the fixing member 4 moves the connecting member 5, the edge of the distal end face 60c of the forcible member side projection 60 comes into contact with the connecting side groove portion The side surfaces 60a and 60b of the urging member side projection 60 and the side surfaces 50a and 50b of the adjacent two connecting side projecting portions 50 abut each other.

As described above, when the projection height h1b of the connection side projection portion 50 is substantially equal to the projection height h1a of the projection member side projection 60, the connection side projection portion 50 and the force member side projection portion 60 The minimum width c2a of the groove portion 62 is equal to or smaller than the projection width w1b of the connection side projection portion 50 or the minimum separation width c2b of the connection side groove portion 52 is equal to or smaller than the projection width w1a of the projection member side projection portion 60 Satisfies at least any of the relations.

As a result, the coupling-side projection portion 50 and the coupling-member side projection portion 60 are formed such that the coupling-side projection portions 50 and the two urging-member-side projecting portions 60 adjacent to each other are engaged with the coupling member 5 by the fixing member 4. [ As shown in Fig. Therefore, it is possible to reliably form a state in which the connection-side projection portion 50 is caught in the reclamation direction Y by the two adjacent urging member-side projecting portions 60.

Particularly, the protruding height h1b of the connecting-side protruding portion 50 is substantially equal to the protruding height h1a of the urging-member-side protruding portion 60, and the connecting end protruding portion 50 and the force- Side protruding portion 50 and the forcing member side protruding portion 60 when the protruding width w1b of the protruding portion 50 is substantially equal to the minimum spacing width c2a and the protruding width w1a of the distal end surface 60c is substantially equal to the minimum spacing width c2b It is possible to reduce the volume of the spaced apart portion. Therefore, the area of contact between the connection-side projecting portion 50 and the projecting portion 60 on the side of the forcing member becomes large, and stress concentration can be avoided.

(Action)

47 and 48, the vertical joint structure 1 of the forcible member to which the present disclosure is applied is formed in such a manner that the inner side surface 50a of the connection side projection portion 50 and the side surface 50a of the force member side projection portion 60 At least one of the outer surface 60b of the connection member side protrusion 50 and the inner side surface 60a of the urging member side protrusion 60 is substantially parallel. As a result, the contact area between the inner side surface 50a of the adjacent connection-side projecting portion 50 and the outer side surface 60b of the urging member-side projecting portion 60, or the outer surface of the connection-side projecting portion 50 50b and the inner side surface 60a of the urging member side projection 60 can be increased. Therefore, it is possible to facilitate the transmission of the load between the connection-side projection portion 50 and the force member-side projection portion 60.

49 and 50, the inner side surface 50a of the connection-side projecting portion 50, the outer side surface 60b of the projecting portion 60 of the forcing member 60, or the projecting portion 50 of the connection side, for example, At least one of the outer side surface 50b of the inner member 60 and the inner side surface 60a of the urging member side projection 60 may have different taper angles. Even in this case, the connection-side projecting portion 50 can be in contact with the two adjacent forcing-member-side projecting portions 60 to form a hooked state.

49, the edges (the edges of the inner side face 50a and the outer side face 50b) of the distal end face 50c of the connection-side projecting portion 50 are located on the inner side face of the reinforcing member side projecting portion 60 Side projection 60a and the outer side surface 60b, and the connection-side projection 50 is engaged. 50, the edges (the inner side surface 60a and the outer side surface 60b) of the distal end surface 60c of the urging member side protruding portion 60 are located on the inner side surface 50a And the outer side surface 50b, and the connection side projection 50 is engaged.

The configuration in which the edges of the inner side surface 50a and the outer side surface 50b of the connection side projection portion 50 abut on the inner side surface 60a and the outer side surface 60b of the urging member side projection portion 60, Quot; pushing " the connecting side inclined surface to the opposed inclined surface on the side of the forcible member. The configuration in which the inner side surface 60a and the outer side surface 60b of the urging member side projection portion 60 abut against the inner side surface 50a and the outer side surface 50b of the connection side projection portion 50 is the same as the configuration Pushing " to the inclined surface on the side of the forcible member facing the inclined surface.

As described above, the taper angle of each side surface 50a, 50b, 60a, 60b in the connection-side protruding portion 50 and the urging member side protruding portion 60, the protruding height of the recirculation orthogonal direction X, Can be arbitrarily set within the range in which the coupling-side projection portion 50 and the adjacent two of the forcing-member side projection portions 60 can be engaged with each other.

The present embodiment also exhibits the same operational effects as those of the above-described embodiment. The coupling-side projection portion 50 disposed in the coupling member side groove portion 62 between the coupling member side projection portions 60 has the coupling member side projection portion 60 disposed in the direction away from the vertical coupling portion 3 So that the relief in the direction away from the vertical joint portion 3 can be regulated.

In addition, by securing a sufficient initial bending stiffness at the vertical joint portions 3 of the plurality of steel sheet piles 2, the vertical joint portions 3 of the plurality of steel sheet piles 2 do not become structural weaknesses. This makes it possible to prevent the air from being prolonged by field welding or high-strength bolt friction bonding or the like at the vertical joint portions 3 of the plurality of steel sheet piles 2 while maintaining the bending rigidity of the entire steel member connected to the plurality of steel sheet piles 2 Can be avoided.

It is also preferable that the connection is made such that the protruding portion 60 is fitted to the connection side groove portion 52 or the connection protruding portion 50 is fitted to the forcing member side groove portion 62, A fixing member 4 for moving the member 5 is used. Thereby, a pressing force acts on the connecting member 5 from the connecting member 5 side toward the steel sheet pile 2 side, and a state in which the connecting-side protruding portion 50 is engaged by the forcing member- do.

Therefore, when external pressure acts from the connecting member 5 side toward the steel sheet pile 2 side at the time of construction, a compressive force acts in a direction to retain the engagement state of the connection-side projection portion 50 , It is possible to improve the bending rigidity of the entire forcing member.

The coupling-side projection 50 and the adjacent two of the coupling-member-side projections 60 can easily be brought into contact with each other by the shape of the coupling-side projection 50 and the shape of the coupling member-side projection 60. [ Therefore, it is possible to easily form a state in which the connection side projection portion 50 is caught in the reclamation direction Y by the adjacent two of the forcussion member side projection portions 60, so that the deviation when the alternate load of the bending of the side portions acts .

When the shaft member 41 such as a bolt is used for the fixing member 4, a bolt or the like penetrates through the hole 5a or the like provided in the connecting member 5 and the force member side protruding portion 60 Such as the hole 60d or the like, or the nut 43. As a result, the engagement state of the connection-side projection portion 50 is retained, and it is possible to prevent the connection member 5 from falling off.

When the protrusion height h1b of the connection side protrusion 50 is substantially equal to the protrusion height h1a of the protrusion 60 on the side of the connection member 50, the minimum separation width c2a of the side member 62 Side projection portion 52 and the projection width w1a of the projection-side projection portion 60 is equal to or smaller than the projection width w1b, or the minimum separation width c2b of the connection-side groove portion 52 is equal to or smaller than the projection width w1a of the projection- The protruding portion 60 can be surely abutted.

Therefore, it is possible to reliably form a state in which the connection-side projection portion 50 is engaged in the reclamation direction Y by the two adjacent urging member-side projections 60, so that the deviation when the alternate load of the bending is applied It becomes possible to further suppress.

The inner side surface 50a of the connection side projection portion 50 and the outer side surface 60b of the urging member side projection portion 60 or the outer side surface 50b of the coupling side projection portion 50 and the urging member side projection portion 60, At least one of the inner side surfaces 60a is substantially parallel. Therefore, the area of the inner side surface 50a of the adjacent connection-side projecting portion 50 and the outer side surface 60b of the urging member-side projecting portion 60 are in contact with each other or the outer surface of the connection- 60b and the inner side surface 60a of the urging member side projection 60 can be increased. This makes it possible to facilitate the transmission of stress between the connection-side projecting portion 50 and the urging member-side projecting portion 60, thereby making it possible to further suppress the deviation when the alternate load of the bending of the side portions is applied.

The inner side surface 50a of the connection side projection 50, the outer side surface 60b of the urging member side projection 60, the outer side surface 50b of the connection side projection 50, The inner side surface 60a of the inner tube 60 is substantially parallel. Therefore, it is possible to reduce the volume of the spaced portion between the connection-side projection portion 50 and the force member-side projection portion 60. [ As a result, the area in which the connection-side projecting portion 50 and the urging member-side projecting portion 60 are in contact with each other becomes large, and the load transmission becomes easy.

11 to 13, the vertical joint structure 1 of the forcible member to which the present disclosure is applied is provided with the connection-side projection portion 50 (as shown in Figs. 11 to 13) And the corner portion C of the forcing member side projection 60 may be chamfered by hot extrusion processing. The vertical joint structure 1 of the forcing member to which the present disclosure is applied facilitates the hot extrusion processing of the corner portion C in the connection side projection portion 50 and the force member side projection portion 60, It is possible to improve the workability of the projecting portion 50 and the projecting portion 60 of the forcing member.

For example, another embodiment of the vertical joint structure 1 of the forcible member to which the present disclosure is applied is used to connect a plurality of forcings having a predetermined cross-sectional shape in the reclamation direction Y, similarly to the above- .

Further, the steel sheet piles 2, such as the hat-shaped steel sheet piles 21 having a substantially hat-shaped section shown in Figs. 3 to 5, are used as the forcing members, but the invention is not limited thereto. For example, an H-shaped steel 24 having a substantially H-shaped cross section shown in Fig. 32, a rectangular steel pipe 25 having a substantially rectangular cross section shown in Fig. 33, The steel pipe 26 may be used as a forcing member and connected in the reclamation direction Y. [

As shown in Fig. 6, in addition to the construction in which one connecting member 5 is installed to the end portion 30 of the steel sheet pile 2, for example, as shown in Fig. 35, Two connecting members 5 may be provided so as to sandwich the end portion 30 of the connecting member 5 in the recirculating and orthogonal direction X. The number and the number of the connecting members 5 may be arbitrarily set.

The fixing member 4 penetrates the hole 5a provided in the connecting member 5 and is inserted into the hole 30b provided in the steel member sheet-like protruding portion 60 or the steel sheet metal 2 as the forcing member .

51 and 52, the inner side surface 60a constituting the steel member side slope of the steel member side projection 60 is connected to the vertical joint portion 3 In the vertical joint structure. The connecting member 5 is slidably moved in the wall width direction Z along the side surface 31 of the steel sheet pile 2 provided with the steel member side projection 60, Is installed in the vertical joint portion (3).

At this time, the connection-side protrusion 50 of the connecting member 5 is fitted to the forcing member-side groove 62 formed between the plurality of the urging member-side protrusions 60. The steel member side protruding portion 60 of the steel sheet pile 2 is fitted to the connection side groove portion 52 formed between the plurality of connection side projection portions 50. [

Although the embodiments of the present disclosure have been described in detail in the foregoing, all of the above-described embodiments are merely examples of the embodiment in carrying out the present disclosure, and the technical scope of the present disclosure is limited It should not be interpreted.

Description of reference numerals will be given below.

1: Vertical joint structure of steel sheet pile

2: steel sheet pile

2a: flange portion

2b: Web part

2c:

2d: joint part

21: hat-shaped steel sheet pile

22: U-shaped steel sheet pile

23: Z-shaped steel sheet pile

24: H-shaped steel

25: square steel pipe

26: Circular steel pipe

3: Vertical joint position

30: end

30a: end face

30b: a hole provided at the end

31: end side

4: Fixing member

40: screw hole

41:

41a:

42: Wedge member

42a:

43: Nuts

44:

5:

5a: hole provided in the connecting member

50: connecting protrusion

50a: the inner surface of the connecting protrusion

50b: outer surface of the connection side projection portion

50c: the end face of the connecting side protrusion

50d: a hole provided in the connection-side projection portion

51:

51a:

51b: lower plate portion

52: connecting side groove portion

6: Plate member

60: Forced member side projection portion

60a: inner surface of the projecting portion of the forcing member

60b: outer surface of the projection of the force member side

60c: the end face of the projecting portion on the side of the forcing member

60d: a hole provided in the force member side projection portion

62: Forced member side groove portion

7: Forced wall

70: connecting force member

8: in the ground

X: Recurrent orthogonal direction

Y: Reconstruction direction

Z: wall width direction

«Bookkeeping»

From the present specification, the following other aspects are conceptualized.

The vertical joint structure of the forcing member of the first aspect,

Side projecting portion projecting from an end surface side of one of the forcing members and an end surface side of the other of the forcing members connected in the reclamation direction and the inclining surface inclining with respect to the projecting direction is spaced apart from the boundary sides and boundaries of the two forcing members Side projecting portion formed on at least one of the side surfaces

And a connection side projection portion projecting from the flat plate portion toward the end side face of each of the forcing members, and a connection side slope face opposing the force member side slope face of the force member side projection portion is connected to the connection A connecting member formed on the side projecting portion,

A fixing member for pressing the connecting side inclined surface against the opposing inclined surface on the side of the forcing member while a gap is formed between the flat plate portion and the forcing member side protruding portion

Respectively.

The vertical joint structure of the forcing member of the second aspect is such that, in the first aspect,

A plurality of the forcussion member side projections arranged in the reclamation direction are provided on each of the forcing members and regulate a relief in a direction away from the boundary of the connecting side projections arranged between the respective forcussion member side projections And the forcible member side protruding portion disposed on the side of the stopper apart from the boundary.

The vertical joint structure of the forcible member of the third aspect, in the first or second aspect,

The fixing member pushes the connection side inclined surface to the opposing inclined surface on the side of the forcing member by a load in a direction in which the connecting member is separated from the forcing member.

The vertical joint structure of the forcible member of the fourth aspect is such that, in the third aspect,

The fixing member includes a shaft member that penetrates through the connecting member and abuts on the projecting portion on the side of the forcing member or the side face of the end portion or a shaft member that penetrates the side surface of the forcing member and abuts on the connecting member do.

The vertical joint structure of the forcible member according to the fifth aspect is, in the fourth aspect,

The shaft member includes a bolt threaded into the screw hole passing through the connecting member or the forcing member.

In the vertical joint structure of the forcing member of the sixth aspect, in the third to fifth aspects,

The fixing member includes a wedge member interposed between the connecting member and the end side face.

The vertical joint structure of the forcible member of the seventh aspect is, in any one of the first to sixth aspects,

Wherein the connection member has a plurality of the connection-side projection portions arranged in the reclamation direction, a connection-side groove portion in which the pressing member-side projection portion is disposed is formed between the adjacent connection-

Side projecting portion and the forcing-member-side projecting portion are formed so that projecting widths w1 in the reclamation direction at the tips of the respective projecting directions are substantially equal to each other, and the proximal end side of the connection- And the projection width w1 satisfy the relation defined by the following equation (1).

w1 > lp / 2 ... (One)

The vertical joint structure of the forcible member of the eighth aspect, in the first aspect,

Wherein the connection-side projection has a plurality of the connection-side projection portions arranged in the reclamation direction, the flat plate portion has a shape in which the width in the reclamation direction is wider than the tip side,

Wherein the forcible member side projection has a plurality of the forcussion member side projections arranged in the reclamation direction and the end side face side of the forcing member is wider in the reclamation direction than the tip side,

Wherein the fixing member includes a shaft member which penetrates a hole provided in the connecting member and is inserted into a hole provided in the projection on the side of the forcing member or the forcing member or a shaft member penetrating a hole provided in the forcing member, And a shaft member inserted into the prepared hole,

Wherein the fixing member has a configuration in which the projecting portion on the side of the coupling member is arranged in the connection-side groove portion between the adjacent projecting portions adjacent to each other or the projecting portion on the side of the forcing member between the adjacent projecting portions on the side of the forcing member is disposed The connecting member is pushed to the side of the forcing member.

The vertical joint structure of the forcing member of the ninth aspect, in the eighth aspect,

The shaft member is screwed to the nut through a bolt screwed into a hole of the screw member-side projecting portion or a hole of the coupling-side projection portion, or through the connecting member and the forcing member.

The vertical joint structure of the forcing member of the tenth aspect is, in the eighth or ninth aspect,

The minimum groove width c2a of the forcible member side groove portion is equal to or smaller than the projected width width w1b of the tip end of the connecting side projection portion or the minimum groove width c2b of the connecting side groove portion is smaller than the minimum groove width c2b of the tip end The width of the protrusion in the reclamation direction is equal to or smaller than the protrusion width w1a in the reclamation direction.

The vertical joint structure of the forcing member of the eleventh aspect is any of the first, eighth to tenth aspects,

Side projecting portion and the forcing-member-side projecting portion are formed on a side of the boundary-side surface of the connection-side projecting portion and a surface of the projecting portion on the side of the reinforcing member which is remote from the boundary, At least one of a surface on the side remote from the boundary and a surface on the boundary side of the forcing member side projection is substantially parallel.

The vertical joint structure of the forcing member of the twelfth aspect is any one of the first to eleventh aspects,

The connection-side projection portion and the force member-side projection portion have a shape in which the corner portion at the tip end side in the projecting direction is chamfered.

<Other Embodiments>

Further, from the present specification, the following other aspects are conceptualized.

The vertical joint structure of the forcing member of the first aspect,

A vertical joint structure of a forcing member connecting a plurality of forcing members having a predetermined cross-sectional shape in a reclamation direction,

A connecting member which is installed at a vertical joint portion connecting the ends of the respective forcings in the reclamation direction with each other; a fixing member which moves the connecting member in the recirculating and orthogonal direction; And a base material side protrusion protruded in a recirculating and orthogonal direction,

Wherein the connecting member has a flat plate portion continuous in the reclamation direction over the vertical joint portion and a connecting protrusion portion protruding from the flat plate portion toward the end side in the direction perpendicular to the recirculation,

The connection-side projection portion and the base material-side projection portion are formed in a tapered shape in which the side surface of the connection-side projection portion and the side surface of the base material-side projection portion are inclined in the direction perpendicular to the recirculation.

The vertical joint structure of the forcing member of the second aspect is such that, in the first aspect,

Wherein the connection-side projection portion and the base material-side projection portion are provided on an inner side close to the vertical joint portion in a reclamation direction of the connection-side projection portion, and an inner side surface adjacent to the vertical joint portion in a reclamation direction of the base- The side surface is formed in a tapered shape inclined in the recirculation orthogonal direction,

The fixing member is arranged so as to be in a state in which the inner surface of the connection-side projection portion and the outer surface of the base material-side projection portion are in a state of being apart from each other in the reclamation direction, .

The vertical joint structure of the forcible member of the third aspect, in the first or second aspect,

The fixing member includes a shaft member which penetrates the connecting member and abuts on the base material side projection or the side surface of the base member or a shaft member that penetrates the end portion of the forcing member and abuts on the connecting member do.

The vertical joint structure of the forcible member of the fourth aspect is such that, in the third aspect,

A bolt threaded into the screw hole penetrating the end of the connecting member or the forcing member is used as the shaft member.

The vertical joint structure of the forcing member of the fifth aspect is such that, in any of the first to fourth aspects,

The fixing member is a wedge member interposed between the connecting member and the side surface of the end portion.

In the vertical joint structure of the forcing member of the sixth aspect, in any of the first to fifth aspects,

Wherein the connecting members are spaced from each other in the reclamation direction to form a plurality of the connection protrusions and the protrusions on the base material side are fitted to the connection-side recesses of the portions separated from the plurality of connection protrusions adjacent to the reclosing direction,

Side projecting portion and the base material-side projecting portion are formed so that the protrusion width w1 in the reclamation direction at the tip side in the respective reclaiming and orthogonal directions are substantially equal to each other, and the protrusion width of the protrusion in the reclamation direction The total extension lp and the projection width w1 satisfy the relation defined by the following equation (1).

w1 > lp / 2 ... (One)

The vertical joint structure of the forcing member of the seventh aspect, in the first aspect,

Side projections are spaced apart from each other in a reclamation direction to form a plurality of connection-side projections, and the side of the flat plate is shaped to have a wider width in the reclamation direction than a side of the front-

Wherein said base material side projecting portions are spaced apart from each other in a reclamation direction to form a plurality of said base material side projecting portions and said end side face side of said forcing material has a shape wider in a reclamation direction than a front end side,

The fixing member may include a shaft member penetrating a hole provided in the connection member and passing through a hole provided in the base material side protrusion or a hole provided in the end portion of the forcing member, A shaft member inserted through the hole is used,

Wherein the fixing member is formed in a state in which the base material side projection portion is fitted to the connection side groove portion of the portion in which the plurality of connection side projection portions adjacent to the reclamation direction are separated or in a state in which the plurality of base material side projection portions adjacent to the reclamation direction are spaced apart And the connecting member is moved in a direction approaching the end side face in the direction perpendicular to the recirculation direction so as to be at least any state among the state in which the connection side projection portion is fitted to the base material side groove portion.

In the vertical joint structure of the forcible member of the eighth aspect, in the seventh aspect,

The shaft member has a bolt screwed into a hole provided in the base-side projection portion of the threaded portion or a hole provided in the connection-side projection portion, or a bolt threaded into the nut through the connecting member and the end portion of the forcing member do.

The vertical joint structure of the forcing member of the ninth aspect is, in the seventh or eighth aspect,

When the projection height h1b of the connection side projection and the base article side projection is substantially equal to the projection height h1a of the base member side projection in the direction perpendicular to the restructuring direction,

The minimum spacing width c2a of the base material side groove portion is not more than the projection width w1b in the restricting direction on the distal end face of the connection side projection,

The minimum separation width c2b of the connection side groove portion is not more than the projection width w1a in the receding direction on the distal end face of the base material side projection portion

At least one of the following relations is satisfied.

In the vertical joint structure of the forcing member of the tenth aspect, in any one of the first, seventh to ninth aspects,

Wherein the connection-side projection portion and the base material-side projection portion have an inner side close to the vertical joint portion in a reclamation direction of the connection-side projection portion and an outer side surface spaced apart from the vertical joint portion in a reclamation direction of the base- Or at least one of an outer side surface spaced apart from the vertical joint portion in the reclining direction of the connection side projection portion and an inner side surface adjacent to the vertical joint portion in the receding direction of the base material side projection portion are substantially parallel.

The vertical joint structure of the forcing member of the eleventh aspect is, in any of the first to tenth aspects,

The connection-side projection portion and the base material-side projection portion have a shape in which a corner section in an inner side surface or an outer side surface in a reclosing direction is chamfered.

In these other aspects, the following operational effects are exerted.

According to the first to eleventh aspects, since sufficient initial bending rigidity is secured at the vertical joint portions of a plurality of steel sheet piles or the like, the vertical joint portions such as a plurality of steel sheet piles do not become a structural weak point, It is possible to avoid the deterioration of the bending rigidity of the entire connecting force member in which a plurality of steel sheet piles and the like are connected to each other while avoiding prolonged air flow by field welding or high-strength bolt friction joining at the vertical joint portion.

According to the second to sixth and eleventh aspects, a gap is formed between the connection-side projection and the base-side projection so that the fitting operation of the connection-side projection and the base-side projection is smooth, It is possible to easily and quickly carry out the work of connecting the main body 1 to the reclamation direction.

According to the second to sixth and eleventh aspects, tensile force can be transmitted immediately after the connection-side projection portion and the base material-side projection portion are fitted or at a comparatively early stage, so that the fitting operation of the connection- It is possible to secure a sufficient initial bending rigidity to the same extent as that of the main body of the steel sheet pile or the like by connecting a plurality of steel sheet piles or the like in a stiffer direction in the reclamation direction.

Particularly, according to the third, fourth, and eleventh aspects, since the shaft member such as a bolt is used for the fixing member, the tip end portion of the bolt or the like screwed into the screw hole is brought into contact with the base material- It is possible to restrain the projecting portion and the base material side projection portion from sliding from the fitting state, thereby preventing the connection member from falling off.

Particularly, according to the fifth and eleventh aspects, even if the wedge member interposed between the connecting member and the end side face of the steel sheet pile or the like is used for the fixing member, the connecting member can be moved It is possible to easily realize a structure for moving the connecting member by eliminating the drilling operation of the screw hole on the connecting member and the screwing operation of the bolt or the like.

Particularly, according to the sixth and eleventh aspects, when the connection-side projection portion and the base material-side projection portion are formed to have substantially the same shape dimensions and the tip side is a single-sided single-sided tapered or double-sided tapered shape, Side projection and the protrusion width w1 in the reclamation direction in which the connection side protrusion and the connection side groove are combined satisfy the relation defined by the above formula (1), the connection protrusion and the base material protrusion depart from the fitting state in the recirculating and orthogonal direction It is possible to reliably prevent the abovementioned problems.

Particularly, according to the seventh to eleventh aspects, the connecting member is moved so as to be in at least one of a state in which the base member side projection portion is fitted to the connection side groove portion or a state in which the connection side projection portion is fitted to the base member side groove portion A fixing member is used. Therefore, a pressing force is applied to the connecting member from the connecting member side toward the pressing member side, and a state in which the connecting-side protruding portion is engaged by the base material-side protruding portion is formed. As a result, when an external pressure acts from the connecting member side to the reinforcing member side at the time of construction, a compressive force acts in a direction to retain the engagement projection-side projecting portion, so that the bending rigidity It is possible to improve the performance.

Particularly, according to the seventh to eleventh aspects, the connection-side projection portion and the two adjacent base-body-side projection portions can be easily abutted by the shape of the connection-side projection portion and the shape of the base material-side projection portion. Therefore, it is possible to easily form a state in which the connection side projection portion is caught by the adjacent two base material side projection portions in the reclamation direction, and it is possible to suppress the shift when the alternate load of the bending of the government acts.

Particularly, according to the eighth to eleventh aspects, by using a shaft member such as a bolt or the like as a fixing member, a bolt or the like penetrated through a hole or the like provided in the connecting member and the hole or the like provided on the base- Threaded. As a result, the engagement state of the connection-side projection portion is retained, and it is possible to prevent the connection member from falling off.

Particularly, according to the ninth to eleventh aspects, when the protrusion height h1b of the connection-side protrusion is substantially equal to the protrusion height h1a of the protrusion on the base material side, the minimum separation width c2a of the base material side groove is less than the protrusion width w1b And the minimum width c2b of the connection-side groove portion is equal to or smaller than the projection width w1a of the base-side projection portion, the two projection-side projection portions adjacent to the connection-side projection portion can be reliably contacted with each other. Therefore, it is possible to reliably form a state in which the connection-side projection portion is caught by the adjacent two base material-side projections in the reclamation direction, and it is possible to further suppress the shift when the alternate load of the bending of the government acts.

Particularly, according to the tenth aspect and the eleventh aspect, at least one of the inner side surface of the connection side projection, the outer side surface of the base material side projection, or the outer side surface of the connection side projection and the inner side surface of the base material side projection is substantially parallel. Therefore, it is possible to increase the area of contact between the inner side surfaces of the adjacent connection-side projections and the outer side surfaces of the base-side projections, or the area where the outer side surfaces of the adjacent connection-side projections and the inner side surfaces of the base- As a result, it is possible to facilitate transmission of stress between the connection-side projection and the base-side projection, thereby making it possible to further suppress the shift when the alternate load of the bending is applied.

Particularly, according to the tenth and eleventh aspects, since the inner side surface of the connection side projection, the outer side surface of the base material side projection, and the outer side surface of the connection side projection and the inner side surface of the base material side projection are substantially parallel, And the volume of the spaced portion between the protrusions on the base material side can be reduced. As a result, the area in which the connection-side projection portion and the base material-side projection portion are in contact with each other is increased, and stress transmission is facilitated.

In particular, according to the eleventh aspect, since the corner portions of the connection-side projection portion and the base material-side projection portion are chamfered, hot extrusion processing of the corner portions of the connection-side projection portion and the base material- It is possible to improve the workability of the protrusions on the base material side.

The disclosure of Japanese Patent Application No. 2016-156002 filed on August 8, 2016 is incorporated herein by reference in its entirety. The disclosure of Japanese Patent Application No. 2017-027817 filed on February 17, 2017 is incorporated herein by reference in its entirety.

Also, all documents, patent applications, and technical specifications described in this specification are herein incorporated by reference to the same extent as if each individual document, patent application, and technical specification were specifically and individually stated to be incorporated by reference. do.

Claims (12)

Side projecting portion projecting from an end surface side of one of the forcing members and an end surface side of the other of the forcing members connected in the reclamation direction and the inclining surface inclining with respect to the projecting direction is spaced apart from the boundary sides and boundaries of the two forcing members Side projecting portion formed on at least one of the side surfaces
And a connection side projection portion projecting from the flat plate portion toward the end side face of each of the forcing members, and a connection side slope face opposing the force member side slope face of the force member side projection portion is connected to the connection A connecting member formed on the side projecting portion,
A fixing member for pressing the connecting side inclined surface against the opposing inclined surface on the side of the forcing member while a gap is formed between the flat plate portion and the forcing member side protruding portion
A vertical joint structure of the mandrel. 2. The apparatus according to claim 1, wherein a plurality of the forcibly-member side projections arranged in the reclamation direction are provided on each of the forcing members, and a direction in which the projections are spaced apart from the boundary of the connecting- And a stopper for restricting a relief to the first member is formed on the side of the urging member-side projection separated from the boundary. 3. The apparatus according to claim 1 or 2, wherein the fixing member is a member for pressing the connection side inclined surface against the opposing inclined surface on the side of the forcing member by a load in a direction in which the connecting member is spaced from the forcing member Vertical joint structure. 4. The connector according to claim 3, wherein the fixing member includes: a shaft member that penetrates through the connecting member and abuts on the projecting portion on the side of the forcing member or the side surface of the end portion; or a shaft member penetrating the side surface of the forcing member, The vertical joint structure of the forcing member including the shaft member to which it is touched. The vertical joint structure according to claim 4, wherein the shaft member includes a bolt threaded into a screw hole passing through the connecting member or the forcing member. The vertical joint structure according to any one of claims 3 to 5, wherein the fixing member includes a wedge member interposed between the connecting member and the end side face. The connector according to any one of claims 1 to 6, wherein the connecting member has a plurality of connection-side projections arranged in the reclamation direction, and between the adjacent connection-side projections, the force- Side groove portion in which the connection-
Side projecting portion and the forcing-member-side projecting portion are formed so that projecting widths w1 in the reclamation direction at the tips of the respective projecting directions are substantially equal to each other, and the proximal end side of the connection- And the protrusion width w1 satisfy the relation defined by the following equation (1): &quot; (1) &quot;
w1 &gt; lp / 2 ... (One) The connector according to claim 1, wherein the connection-side projection portion has a plurality of connection-side projection portions arranged in the reclamation direction, and the flat plate portion has a shape in which a width is widened in the reclamation direction,
Wherein the forcible member side projection has a plurality of the forcussion member side projections arranged in the reclamation direction and the end side face side of the forcing member is wider in the reclamation direction than the tip side,
Wherein the fixing member includes a shaft member which penetrates a hole provided in the connecting member and is inserted into a hole provided in the projection on the side of the forcing member or the forcing member or a shaft member penetrating a hole provided in the forcing member, And a shaft member inserted into the prepared hole,
Wherein the fixing member has a configuration in which the projecting portion on the side of the coupling member is arranged in the connection-side groove portion between the adjacent projecting portions adjacent to each other or the projecting portion on the side of the forcing member between the adjacent projecting portions on the side of the forcing member is disposed Wherein the connecting member is pushed to the side of the forcing member in at least one of the states. 9. The screw according to claim 8, wherein the shaft member is a bolt screwed into a hole of the screw member-side projecting portion or a hole of the connection-side projecting portion, or a bolt threaded through the connecting member and the forcing member Vertical joint structure of bolt-in, mandrel. The connector according to claim 8 or 9, wherein the minimum groove width c2a of the forcible member side groove portion is equal to or smaller than the projection width w1b in the reconditioning direction at the tip of the connecting side projection, and c2b is not larger than the projection width w1a in the restricting direction at the tip end of the forcible member side protruding portion. The connector according to any one of claims 1 to 10, wherein the connection-side projecting portion and the forcing-member-side projecting portion are provided on the boundary-side surface of the connection-side projecting portion and the projecting portion on the side of the forcing member Wherein at least one of a surface on a side away from the boundary of the connection member side surface or a surface on the side of the connection side projection separated from the boundary and a surface on the boundary side of the forcing member side projection is substantially parallel, Vertical joint structure. 12. The vertical joint structure according to any one of claims 1 to 11, wherein the connection-side projection portion and the force member-side projection portion are in a shape in which the corner portion on the tip end side in the projecting direction is chamfered.

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