JPS6322915A - Tubular support sheet-pile for sheet-pile wall - Google Patents

Abstract

1. Tubular supporting pile for a combined sheet-piling wall, having slots (17) running in the direction of the generating line of the tube, into which slots (17) filling piles (12) can engage and which are bridged on the inside (21) of the tube wall (22) by a lock (18), characterized in that the locks (18) are designed as sheet-piling locks for the connection of sheet-piling section piles (12) and are welded to the slot edges (19, 20).

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a tubular supporting sheet pile for a combined sheet pile wall, wherein the filling sheet pile filling between the tubular supporting sheet piles is formed by a formed sheet pile. Concerning the type of thing that is.

BACKGROUND OF THE INVENTION For quay walls and other surface support devices that support horizontally acting earth and water pressures, large cracks in the ground, etc., require a large number of support sheet piles and connections between these support sheet piles. A combination sheet pile wall is used consisting of infill sheet piles. The support sheet pile is a profile with an H-shaped cross section or a box-shaped profile with a high section modulus. The supporting sheet piles are laterally spaced apart from one another and are primarily designed to accept bending moments due to horizontal and vertical loads. The intermediate space between the supporting sheet piles is filled by a filling sheet pile, which is generally a simple steel pile with a box-shaped or corrugated profile of known construction.

The section modulus of rolled supports is not sufficient to support high horizontal forces, and to produce the known box-shaped supports a large number of plates and sheet piles must be welded together. It is also known to use large helically welded pipes as support sheet piles, since this leads to high costs and relatively unstable support sheet piles (due to the limitations of port construction and transshipment technology). Handbook of Bd.

XXX, 1981E, pH, 12), sheet pile wall tensions are welded to the outside of the tube wall in order to connect the filling sheet piles arranged between the support sheet piles formed as tubes; After driving the tubular support sheet pile into the wall fastening, the filler sheet pile to be connected is introduced and driven in the same way.

Problem to be Solved by the Invention All of the known supporting sheet piles are driven into the ground only by hammering or shaking, and in particular:
In the case of supporting sheet piles designed as tubes, this supporting sheet pile rotates about the longitudinal axis through a predetermined angle, and the externally mounted tensioning no longer connects the filling sheet piles. There is a risk that it will not be in the desired correct position required for the purpose. Above all, the sudden sound when driving the support sheet pile and the vibration when it is shaken are so great that the harmful effects on the surroundings and adjacent structures are often of an unacceptable degree.

Therefore, the object of the present invention is to provide a support sheet pile (hereinafter referred to as a "tubular support sheet pile") having a circular cross-sectional shape, which can be driven into the ground without noise, vibration, or shaking, and which is relatively easy to drive. It is an object of the present invention to provide an apparatus which can be manufactured at low cost and which allows the tightening part to be accurately aligned with the filling sheet pile.

Means for Solving the Problems According to the present invention, which solves the above-mentioned problems, the tightening portions for connecting the filled sheet piles are arranged inside the pipe wall, and each tightening portion of the pipe wall A slit is provided in the area.

Effects and Effects According to the structure of the present invention, the circular outer circumference of the tubular support sheet pile is not obstructed by the protruding tightening part, so that the tubular support sheet pile is able to absorb this perforation in the same way as a perforated pile. It can be penetrated by making a hole in the ground according to the formula pile method. The tubular support sheet pile is embedded into the earth by a powered rotary head or drilling machine. This embedding work can also be performed using a ram hammer and a vibrator. At the same time, when driving this tubular support sheet pile, always remove the soil that penetrates into the interior of the tubular support sheet pile and, if necessary, remove any rock that hits the underside of the lower cutting edge, such as large rough stones and the like. It is also possible to remove or destroy it. The tubular support sheet pile of the present invention is reliably guided when driven into the ground and will not deviate even if there is rock beneath the lower cutting edge, resulting in a precisely aligned vertical arrangement. is obtained. Moreover, the tubular supporting sheet pile can be rotated about its own axis in any direction such that the tensioning section is in a position aligned with and disposed between the filling sheet piles. Be able to do it.

It is particularly advantageous if the slits are provided only in the upper region of the tubular support sheet pile and the tube wall is closed annularly in the area of the lower edge of the tube support sheet pile.

In this way, the tubular support sheet pile has a completely tubular cross section in the area of its lower cutting edge and even beyond, so that during driving, the tubular support sheet pile has a completely tubular cross section. The circumferential forces acting on the sheet pile are completely absorbed, resulting in a high stiffness of the part of the tubular support sheet pile that penetrates into the ground.

The length of the clamping section of the tubular supporting sheet pile is advantageously approximately the same as the length of the filling sheet pile to be connected. The filled sheet pile needs to be penetrated deep enough into the ground that the lower edge is sufficiently tightened.

The tensions of the tubular supporting sheet piles can be constructed as box-shaped tensions welded to the edges of the slots (welded seams) provided in the pipe wall, or alternatively in each case with one single-shaped strip. , a steel strip welded to the single-shaped strip.

In order to be able to obtain sufficient rigidity in the circumferential and longitudinal direction of the tubular supporting sheet pile, even where the tubular supporting sheet pile has slits in the region of the sheet pile wall tightening, the tube wall should be at least It is reinforced in the area of each slit by a steel profiled support, which is welded to the inside of the tube wall. For the purpose of reinforcing, profiled supports having an I-shaped or U-shaped cross section are used; it is particularly advantageous if the steel profiled supports are chevron-shaped supports, each of which has an I-shaped or U-shaped cross section. The leading edge is
They are welded and fixed to both sides of the respective slits and surround the tightening parts arranged in these slits.

In this way, the circumferential forces acting on the upper end when rotating or driving the tubular support sheet pile are absorbed by the welded steel shaped support member in the area where the slit is provided, so that the circumferential force acting on the upper end of the tubular support sheet pile is absorbed by the welded steel shaped support member at one edge of the slit. from the edge to the other edge, so that the tension forming strip is not subjected to a circumferential force. Curving or deformation of the clamp welded into the slit is thus avoided, and it is always possible to easily introduce the filling sheet pile into the clamp and withdraw it again later.

Embodiment Next, the structure of the present invention will be specifically explained with reference to the embodiment shown in the drawings.

The combined sheet pile wall 10 consists of a plurality of tubular support sheet piles 11 arranged laterally spaced from each other and a filler sheet pile arranged between the tubular support sheet piles 11. In the example shown, these filled sheet piles consist of three steel sheet piles of trapezoidal cross section. The edge clamps 13 of these three steel sheet piles interlock with each other at the edges where they abut each other. Each tubular support sheet pile 11 can be manufactured from steel tubes of different diameters. In the example shown, this tubular support sheet pile 11 consists of two semi-cylindrical shells lla, llb whose longitudinal edges are welded to each other in the lower region B, thus forming a closed tube. the continuous lower cutting edge (lower edge)
is formed. In the upper region A, the longitudinal edges 15, 16 of the two semi-cylindrical shells lla, Ilb form a slit 17 extending in the generatrix direction of the tube.

In each of the slits 17, one sheet pile wall tightening section (hereinafter simply referred to as a tightening section 18) is arranged. These tightening parts 18 consist of two semi-cylindrical shells l
The longitudinal edges 15, 16 of la, llb located opposite each other are welded by welded seams 19, 20 (edges of the slits). In addition, these tightening parts 18
is located on the inner side 21 of the tube wall portion 22 and is open toward the outside, and is located on the inner side 21 of the tube wall portion 22 of the tubular support sheet pile.
It is connected in the same row as the outer side 23 of. That is, it does not protrude beyond the outside 23 of the tubular support sheet pile.

In the embodiment shown in FIG. 4, the tensioning part 18 consists of one piece forming a box shape. In the embodiment shown in FIG. 5, the tensioning part 18 consists of an L-shaped strip 18a. This L-shaped strip 18a is a welded steel strip 1
Together with 8b they form a box-shaped section which, like the embodiment of FIG. 4, is welded to the longitudinal edges 15, 16 of the tubular supporting sheet pile.

In order to increase the rigidity of the tubular support sheet pile 11 in the area of the tensioning part 18 and to increase the rigidity of the tubular support sheet pile 11 in the area of the tensioning part 18, the circumferential forces in the tube wall 12 which act on this tensioning part 18 when attaching the tubular support sheet pile to the tensioning part 18 are , from one semi-cylindrical shell lla to the other semi-cylindrical shell llb and vice versa, the tube wall 22 is in each case in the region of the slit 17 by means of one chevron-shaped support element 24. This chevron-shaped support element 24 covers a clamping part 18 arranged in the slit 17, which projects beyond the inner side 21 of the tube wall 22, and its free edge 2
5, 26 are welded to the inside 21 of the tube wall on both rows of the slits 17 by welded seams 27, 28.

Instead of the chevron-shaped support member 24, a shaped support member with a U-shaped cross section or a steel support member with a hat-shaped cross section may be provided.

When combining combined sheet pile walls, it is advantageous to
First, the tubular supporting sheet pile 11 is driven to the required depth T1 by means of a power rotary head or a perforator, a ram hammer and a vibrator. If high axial forces are applied to the tube at this time, the tube is forced to reciprocate about its longitudinal axis, as is known when driving perforated piles. Soil that gets into the pipe when driving sheet piles can be removed if necessary. It is also possible to arrange a filler strip inside the tensioning part 18. This filler strip prevents soil from penetrating into the clamping section 18 and can be pulled out again once the tubular supporting sheet pile 11 has reached the desired position.

After driving at least two tubular support sheet piles arranged next to each other, these tubular support sheet piles are aligned so that the mutually facing tensions 18 of the two adjacent tubular support sheet piles 11 are in the desired sheet pile wall alignment position. It is rotated about the longitudinal axis until it is rotated.

The filling sheet piles 12 are then individually or in pairs,
Alternatively, all three together, their free edge recesses are introduced from above into the clamping section 18 of the tubular supporting sheet pile and are driven or pushed into the ground by a defined depth T2 for this purpose. Next, the soil or water present in front of the sheet pile is removed to a desired depth T3.

The invention is not limited only to the illustrated embodiment, but many variations are possible without going beyond the scope of the invention. For example, a tubular support sheet pile can be assembled from three or more tubular piles. In this case, the slits 17 are not arranged diametrically opposite each other, but at an angle to each other. This variant embodiment is useful when the front edges of a filled sheet pile or a supporting sheet pile are to be flush, or when a tubular supporting sheet pile is of a type that cannot be manufactured economically from two half-shelled sections. This is particularly advantageous if the diameter is large. It is also possible to use clamping parts with other cross-sectional shapes or to use other moldings for reinforcing the slit. For tubular supporting sheet piles with small diameters, the reinforcing profile can optionally be omitted completely. Moreover,
It is also possible to weld the tensioning to the inside of the tube wall or to combine the tubular supporting sheet pile with a filling sheet pile having a different cross-sectional shape. In order to significantly avoid vibrations, driving holes are advantageously formed in the region of the filling sheet pile before it is driven in and assembled. The filled sheet pile is then driven and assembled with a vibrator or ram hammer.

[Brief explanation of the drawing]

1 is a schematic front view of a combination sheet pile wall with tubular supporting sheet piles according to one embodiment of the invention; FIG.
The figure is a sectional view taken along the line ■-■ in Figure 1, Figure 3 is a sectional view taken along the line ■-■ in Figure 1, Figure 4 is an enlarged view of part ■ in Figure 3, and Figure 5 is a sectional view taken along the line ■-■ in Figure 1. The figure is a diagram showing an example of a change in a portion corresponding to FIG. 4. 10... Sheet pile wall, 11... Tubular support sheet pile,
11a, llb... semi-cylindrical shell, 12...
Filling sheet pile, 13... Edge tightening section, 14...
Cutting edge, 15.16... Longitudinal edge, 17... Slit, ]8... Tightening part, 18a... L-shaped strip, 18b... Steel strip, 19.20...・Welded seam, 2
1... Inside, 22... Tubular wall, 23... Outside, 2
4... Mountain-shaped support member, 25.26... Free edge, 27.28... Welded seam, 30... Free edge, A.
...Upper range, B...Engraving of the lower range drawing (no change in content 11...Tubular support sort pile 12...Filling no. Day

Claims (1)

[Claims] 1. A tubular supporting sheet pile for a combined sheet pile wall, in which a filling sheet pile (12) filling between the tubular supporting sheet piles (11) is formed by a formed sheet pile. In this type, the tightening part (18) for connecting the filled sheet pile (12) is located on the inside (21) of the tube wall (22) of the tubular supporting sheet pile (11).
), and each tightening part (1
8) Tubular support sheet pile for sheet pile walls, characterized in that the area is provided with slits (17). 2. The slit (17) is connected to the tubular support sheet pile (
11) is provided only in the upper range (A) of the tube wall (
22) is the lower edge (1) of the tubular support sheet pile (11).
4) A tubular support sheet pile according to claim 1, which is closed annularly in the area of 4). 3. The tightening part (18) of the tubular support sheet pile (11)
) is the length of the filling sheet pile (1
2) A tubular support sheet pile according to claim 1 or claim 2, having a length approximately equal to the length of the pile. 4. Claim 1, wherein the tightening part (18) is a box-shaped tightening part welded to the edges (19, 20) of the slit (17) provided in the pipe wall (22). The tubular support sheet pile according to any one of items 3 to 3. 5. The clamping elements (18) each consist of an L-shaped strip (18a) and a steel strip (18b) welded to this L-shaped strip. 1
The tubular support sheet pile according to any one of items 3 to 3. 6. The tube wall (22) is reinforced at least in the area of each slit (18) by a steel molded support member, which is welded to the inside (21) of the tube wall (22). A tubular support sheet pile according to any one of claims 1 to 5, wherein 7. The steel formed support member is a chevron-formed support member (24), and each free edge of the chevron-formed support member (24)
25, 26) are respectively welded and fixed on both sides of the corresponding slit (17) and surround a tightening part (18) arranged in this slit (17). A tubular support sheet pile according to any one of clauses 6 to 6.