EP0139100A1

EP0139100A1 - Steel sheet pile, sheet pile assembly thereof and the method of constructing the assembly

Info

Publication number: EP0139100A1
Application number: EP84108125A
Authority: EP
Inventors: Mitsuhiro Kunitoh
Original assignee: Ask Kenkyusho KK
Current assignee: Ask Kenkyusho KK
Priority date: 1983-09-22
Filing date: 1984-07-11
Publication date: 1985-05-02
Also published as: JPS6065826A; JPH0368172B2

Abstract

A steel sheet pile which is in use to be arranged in side edge to side edge relationship with adjacent piles of like construction to form the wall of an excavation, said sheet pile having a generally H-shaped cross section comprising a web with a wider flange on one side thereof and a narrow flange on the opposite side, said wide flange being provided at its side edges with joint elements for interconnection of the adjacently disposed sheet piles.

Description

TECHNICAL FIELD

The present invention is directed to a steel sheet pile for forming the wall of an excavation, the sheet piling assembly formed of a plurality of the steel sheet piles and the method of construction the assembly.

BACKGROUND ART

As shown in Figs. 1 and 2, there have been widely utilized for the construction of such sheetpiling wall channel steel piles 1 with joint elements 2 at their side edges or H steel piles 3 with joint elements 4 at the side edges of each of opposed flanges 5 of equal width. These piles 1 and 3 are in use to be driven into the ground in side edge to side edge relationship with the joints elements interconnecting the adjacent piles. The H steel piles 3 are found to be advantageous over the channel piles 1 from an economical standpoint since they have inherent rigidity higher than the channel piles with respect to unit weight and can be designed in less weight or thickness for the same rigidity required in constructing the sheetpiling wall. However, such H steel piles 3 are designed to be arranged in a straight line along the wall of an excavation such as a trench and a well and therefore find themselves impossible in some situations to be placed along a curved portion and a corner portion of the wall, because the remaining flanges 5 that do not act as the joint will certainly jam with each other when the piles 3 are required to be placed with little intervening space therebetween, as shown in Fig. 3, to prohibit an angled positioning of the H steel pile in relation to the adjacent piles. That is, the prior H piles 3 can be angularly disposed with each other only with considerable spaces therebetween which could weaken the sheet piling wall assembly to an unusable extent. In addition, the use of the H steel pile 3 will sometimes incur a problem that the web 6 of each H steel pile 3 traverses the ground so as to divide the ground into separate portions, resulting in less binding forces between the individual portions of the ground on both sides of each web 6 and between the pile 3 and the ground.

DISCLOSURE OF THE INVENTION

The above drawbacks have been eliminated by the present invention which provides a steel sheet pile of unique and useful configuration for forming the wall of an excavation. The sheet piles are driven into the ground in side edge to side edge relationship to form the wall in the ground. Each of said sheet piles has a generally H-shaped cross section comprising a web with a wide flange on one side thereof and a narrow flange on the opposite side. Formed at the side edges of the wide flange are joint elements which interconnect the adjacent pairs of sheet piles and which allow a limited angular disposition of an individual sheet pile relative to the adjacent sheet pile. With this configuration of the sheet pile having the wide and narrow flanges in addition to the joint construction of allowing the angular disposition of the sheet pile, the sheet piles can be successfully placed along a curved wall or at a corner portion thereof without requiring considerable intervening spaces between the adjacent sheet piles.
Accordingly, it is a primary object of the present invention to provide steel sheet piles which can be arranged to form not only a straight wall but also curved and corner walls of the excavation, while retaining high rigidity resulting from the employment of the generally H-shaped configuration.
Formed in the web of each sheet pile are a series of longitudinally spaced perforations through which the soil of the ground or the like can pass for assuring strong binding of the soil or the like between the portions on both sides of the web and strong binding between the individual piles and the ground.
It is therefore another object of the present invention to provide a sheet pile which assures strong binding between the individual piles and the ground into which it is driven so as to be cooperative with the ground to form a consolidated wall of the excavation.
In a preferred embodiment, the sheet pile is formed at its wide flange with an integral rib of generally U-shaped configuration for increasing the mechanical strength of each sheet pile.
The above sheet piles are particularly advantageous when used in combination with a grout material such as soil-cement or soil-bentonite-cement mixture which is filled within the ground so as to be cooperative with the sheet piles driven thereinto to form a cutoff wall. A method of forming such cutoff wall comprises the steps of forming a loose or unsolidified grout curtain in the ground with that grout material, driving the sheet piles into the loose grout curtain in such a way as to form a continuous sheet pile assembly by connecting the joint elements of the adjacent sheet piles and to permit the grout material to pass through the perforations in the web of each sheet pile, and allowing the loose grout curtain to dry for solidification. With this method, the sheet piles can be sink in the ground under their own weight or aided by a slight push, enabling the sheet piles to be driven with a greatly reduced noise emission. After construction, the sheet piles serve to be the core of the solidified grout curtain so as to form therewith the consolidated cutoff wall.
It is therefore a further object of the present invention to provide a method of constructing a sheet pile assembly in the ground capable of driving the sheet piles under a greatly reduced noise circumstance to form the consolidated cutoff wall.
These and still other objects of the present invention will be more apparent in the following detailed description of the preferred embodiment when taken in conjunction with the attached drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 is a sectional view of a prior sheet piles of channel steel;
Fig. 2 is a sectional view of another sheet pile of H steel;
Fig. 3 is a schematic diagram showing the inconvenience encountered in arranging the above H steel pile at an angle with the adjacent one;
Fig. 4 is a transverse section of a sheet pile assembly when driven into a grout curtain formed in the ground in accordance with a preferred embodiment of the present invention;
Fig. 5 is a side elevation of a sheet pile employed in the above assembly;
Fig. 6 is a cross section along the line 6-6 of Fig. 5;
Fig. 7 is a cross section along the line 7-7 of Fig. 5;
Figs. 8A and 8B are respectively side elevations of modifications of the above sheet pile;
Fig. 9 is a sectional view of another modification of the above sheet pile;
Fig. 10 is a front elevation of a drilling derrick utilized for drilling holes into which the above sheet piles are driven;
Fig. 11 is a side elevation of the above digging device carried by a crawler crane; I
Figs. 12A and 12B are respectively schematic diagrams showing the plane configurations of the holes in the ground formed by the above digging device and the sheet piles placed in the holes; and
Fig. 13 is a schematic illustration showing the consequence of forming the sheet pile assembly in the ground.

MODE FOR CARRYING OUT THE INVENTION

Referring now to Figs. 4 through 7, there is shown a sheet pile assembly 10 which is combined with a grout curtain 30 in the ground to form a cofferdam or a cutoff wall of an excavation such as a trench and a well. The sheet pile assembly 10 consists of a series of sheet piles 11 arranged in side edge to side edge relationship with each other to extend along a straight or curved line. Each of the sheet piles 11 is in the form of a generally H-shaped cross section along the entire length thereof comprising a web 12 with a wide flange 13 on one side thereof and a narrow flange 14 on the other side. Formed at the side edges of the wide flange 13 are joint elements 15 and 16 which are _U-shaped return hooks, one up-turned and the other down-turned to have their openings facing in opposite directions. Such construction of the joint elements 15 and 16 is conventional and permits the adjacent sheet piles 11 to be interconnected in mutually slidable edge-engagement for facilitating the placement of the sheet piles 11 in addition to that it permits a limited angular disposition of the individual sheet pile 11 relative to the adjacent one. The members of the sheet pile 11 employed in the embodiment is dimensioned for example such that width A of web 12, width B of wide flange 13 and width C of narrow flange 14 are 400, 600 and 200 mm and that thickness T₁ of web 12, thickness T₂ of wide flange 13 and thickness T₃ of narrow flange 14 are 4.5, 6 and 18 mm. Although the above dimensions are preferable, the sheet pile of the present invention should not limited to the above dimensional feature except that the narrow flange 14 has a width preferably a half or less of the wide flange 13. Formed in the web 12 are a series of longitudinally spaced perforations 18 which are trapezoid with one side thereof along the intersection between the web 12 and the wide flange 13. It is of course that the configuration and location of the perforations 18 should not limited to the above and may take the forms as illustrated in Figs. 8A and 8B.
Fig. 9 shows a modification of the above sheet pile which is similar to the above except that a sheet pile 21 is formed at its wide flange 23 with an integral rib 27 which is generally _U-shaped in cross section and extends longitudinally along the intersection of a web 22 and the wide flange 23 for reinforcement of the sheet piles. Such reinforcing rib 27 may be formed at a portion other than that intersection but within the width of the wide flange 23..
Construction of the above sheet piles 11 are now discussed with reference to Figs. 10 through 13. The sheet pile assembly 10 of the present embodiment is placed in a grout curtain 30 formed in the ground and cooperative therewith to form a cutoff wall around an excavation. Said grout curtain 30 is made of a grout material such as soil-cement or soil-bentonite-cement mixture filled within a ditch 31 defined by a series of consecutive holes 32 dug in the ground. A drilling derrick 40 having three parallel auger shafts 41, as shown in Figs. 10 and 11, is employed for digging the ditch 31 or the holes 32. The drilling derrick 40 is carried by a crawler crane 42 for easy location thereof. Each of the auger shafts 41 is provided at its tip with a nozzle 43 for injecting cement paste with bentonite added thereto or not. The cement paste injected from the nozzle 42 will be mixed homogeneously with the remaining soil in the holes 32 by the action of the spirals on the auger shafts 41 as the drilling goes on so as to provide a soil-cement or soil-bentonite-cement mixture which defines said grout material for the grout curtain 30. Fig. 13 illustrates a sequence of constructing the above sheet pile assembly 10 from the drilling of the holes 32 to driving of the sheet piles 11 thereinto, from which it is understood that the drilling of holes 32 and filling of the grout material into the holes 32 or ditch 31 are performed within one cycle from diving the auger shafts 41 into the ground to extracting the same from the ground. Accordingly, the holes 32 filled with the grout material is formed within one operational cycle of the drilling derrick 40. Said trench 31 is made by successively performing the above drilling operation in such a manner as to make a required configuration along the perimeter of the excavation to be dug, which simultaneously forms the loose or unsolidified grout curtain 30 of the required configuration in the ground. After forming such loose grout curtain 40 in the ground, said sheet piles 11 are successively inserted in the curtain 30 under their own weights or aided by a slight force applied to the top thereof. In this insertion of the sheet piles 11, the joint elements 15 and 16 can be slid one within the other so as to interconnect the adjacent sheet piles 11 within the loose grout curtain 30, as shown in Fig. 12B, while the grout material can readily permeate in the joint portions between the adjacent joint elements 15 and 16 such that it can securely link the adjacent ones of the sheet piles 11. In this manner, the sheet piles 11 are successively driven into the loose grout curtain 30 to extend therealong. It it noted at this time that the sectional configuration of the sheet pile 11 allows the individual sheet pile 11 to be displaced angularly relative to the adjacent ones without the interference between the narrow flanges 14 of the adjacent sheet piles 11, whereby the sheet pile assembly can conform with not only a straight line but also a curved line or can make a corner portion, as shown in Fig. 4. After solidification of the grout curtain 30, the sheet pile assembly 10 is fixedly installed in the curtain 30 to form therewith the cutoff wall in which the assembly 10 acts as a core structure.
Said perforations 18 in the web 12 of each sheet pile 11 allow the grout material to pass therethrough for assuring strong binding force developed between the portions of the grout curtain 30 on both sides of the web 12 of each sheet piles 11, which in turn assures a strong combining force between the sheet pile assembly 10 and the surrounding grout curtain 30.
Although only one aspect of the construction in which the sheet pile assembly is driven into the grout curtain in the above embodiment, the present invention should not be understood to be limited to the above aspect and the sheet pile assembly can be directly driven into the ground to support the walls of an excavation.

LIST OF REFERENCE NUMERALS

1 channel steel pile 40 drilling derrick
2 joint element 41 auger shaft
3 H steel pile 42 crawler crane
4 joint element 43 nozzle
5 flange
6 web
10 sheet pile assembly
11 sheet pile
12 web
13 wide flange
14 narrow flange
15 joint element
16 joint element
18 perforation
21 sheet pile
22 web
23 wide flange
24 narrow flange
27 integral rib
30 grout curtain
31 ditch
32 hole

Claims

1. A steel sheet pile which is in use to be arranged in side edge to side edge relationship with adjacent piles of like construction to form the wall of an excavation, said sheet pile having a generally H-shaped cross section comprising a web with a wider flange on one side thereof and a narrow flange on the opposite side, said wide flange being provided at its side edges with joint elements for interconnection of the adjacently disposed sheet piles.

2. The sheet pile as set forth in claim 1, wherein said wide flange is provided with an integral reinforcing rib of generally U-shaped cross section.

3. The sheet pile as set forth in claim 1, wherein said web is formed with a series of longitudinally spaced perforations.

4. A sheet pile assembly including a series of sheet piles arranged in side edge to side edge relationship with each other for supporting the wall of an excavation; each of said sheet piles being provided at their side edges with joint elements for interconnecting the adjacent ones of the sheet piles, in which each of said sheet piles has a generally H-shaped cross section comprising a web with a wide flange on one side thereof and a narrow flange on the opposite side, said wide flange of each sheet pile being provided at its side edges with said joint elements, and the web of each sheet pile having therein a series of longitudinally spaced perforations.

5. A method of constructing a sheet pile assembly in the ground by the use of sheet piles each being shaped in the form of a generally H-shaped cross section having a web with a wide flange on on side thereof and a narrow flange on the opposite side, said wide flange of each sheet pile being provided at its side edges with joint elements for interconnection between a pair of adjacent sheet piles, said method comprising the steps of forming a loose grout curtain in the ground with a grout material such as soil-cement or soil-bentonite-cement mixtures, driving the sheet piles into the loose grout curtain in such a way as to form a continuous sheet pile assembly in the grout curtain by interconnecting the joint elements of the adjacent sheet piles and to permit the grout material to permeate in the joint portions between the adjacent joint elements, and allowing the loose grout curtain to dry for solidification.

6. A method of constructing a sheet pile assembly in the ground by the use of sheet piles each being shaped in the form of a generally H-shaped cross section having a web with a wide flange on on side thereof and a narrow flange on the opposite side, said wide flange of each sheet pile being provided at its side edges with joint elements for interconnection between a pair of adjacent sheet piles and the web of each sheet pile having therein a series of longitudinally spaced perforations, said method comprising the steps of forming a loose grout curtain in the ground with a grout material such as soil-cement or soil-bentonite-cement mixtures, driving the sheet piles into the loose grout curtain in such a way as to form a continuous sheet pile assembly in the grout curtain by interconnecting the joint elements of the adjacent sheet piles and to permit the grout material to permeate in the joint portions between the adjacent joint elements as well