UA54424C2 - Z-shaped sheet-pile with high resistance moment - Google Patents

Abstract

A hot-rolled Z-shaped sheet-pile is comprised of two wings (12', 12") and a web (10) delimited by two substantially planar faces (18', 18"). The web (10) defines a sharp angle with a plane (16) parallel to the external faces (14', 14") of the wings (12', 12"). In order to increase the resistance modulus of said sheet-pile without having to increase the thickness of the wings (12', 12") or the rolling width, each of the two wings (12', 12") has an extension (22', 22") projecting with respect to the imaginary plane (24', 24") which prolongs the planar face (18', 18") of the web situated on the same side as the external face (14', 14") of the respective wing. Thereby, it is possible to roll sheet-piles having a resistance modulus per wall length unit > 4800 cm3/m and a specific resistance modulus of about 20 (cm3/m)/(kg/m2).

Description

Description of the invention

This invention relates to a 2-shaped sheet pile with a high moment of resistance. 27-shaped sheet piles have been known for a long time. They have an inclined wall connected to two essentially parallel shelves. Each shelf has a connecting grip, which, when combined with a similar grip of the adjacent sheet pile, is used to connect the piles to each other into one load-bearing wall. In such a wall, the shelves of 72 similar piles assembled with each other are located essentially parallel to each other at the same distance from the neutral plane of the wall bend. The product obtained by multiplying the moment 70 of resistance of the wall relative to this neutral plane by the maximum allowable stress of the pile material determines the maximum bending moment that the wall can withstand.

The "moment of resistance per unit length" of a wall consisting of sheet piles means the moment of resistance of the wall relative to the neutral bending plane per linear meter of the wall. The "specific moment of resistance" or "index of bearing capacity" of a wall consisting of sheet piles is understood as the moment of resistance of the wall per unit length divided by the mass of a square meter of the wall. Under the "wall consisting of sheet piles" in the description is meant a wall consisting of connected to each other 72-similar sheet piles essentially with shelves parallel and located at the same distance from the neutral plane of the curvature of the wall.

The company RgopyAKVEO 5. A. (Luxembourg) currently produces a 2-shaped sheet pile of the "A7236" brand, at which moment of resistance is 3b00cm? per linear meter of the wall. The mass of the A736 pile is 194 kg per m, and the specific moment | | . From 2 | | at. of support, respectively, is equal to 18.b(cm"7/m) (kg/m-). Such a pile has connecting grips of the AK5ZEM type and a wall that is inclined at an angle equal to approximately 63" to a plane parallel to the shelves. Firm RgoiAKVEO 5. A. (Luxembourg) also produces a 7-shaped sheet pile of the "B742" brand with a moment of resistance equal to 4200 cm? per linear meter of the wall and a mass equal to 271 kg/m? 15.5 (cm3/m) (kg/m). Such a sheet pile has connecting grips of the VEIMAY type and a wall that is inclined at an acute angle equal to approximately 83.5" to a plane parallel to the shelves. Nowadays, o other 2-type sheet piles, in which the moment of resistance reaches 4550cm per linear meter of wall. However, such piles with a higher moment of resistance are too heavy sections with a very large weight per square meter of wall and therefore with a very low specific moment of resistance. Obviously , that the smaller the specific moment resistance of the pile, the higher the cost of the wall.

The main reasons for which sheet piles with a moment of resistance greater than 4550 cm З are not produced are the following:

A) Most often, this is related to the existing restrictions on the maximum thickness of the shelves. These limitations are related to the fact that when sheet piles are rolled on a rolling mill during the last pass, their shelves are bent and connecting grips are formed on them, in particular grips of the type | AKZZEM. It is quite difficult to bend shelves, iv) that have a large thickness on existing rolling mills. In other words, there is currently no industrial way of rolling piles with shelves with a thickness of more than 20 mm having grippers of the GG AKZ5ZEM type.

B) There are also restrictions on the maximum length of the shelves and on the maximum distance between the outer surfaces of the shelves (the height of the pile section). These limitations are due to the fact that at a given angle of inclination of the wall, the size of the entire pile depends on the width of the shelf and the height of the section, and therefore the width of the rolls of the mill cages. Currently, the width of these rolls is limited by the width of the cages of the existing rolling mills. When rolling sheet piles with a high moment of resistance on existing rolling mills, the size of the pile between the axes of the grippers located on its shelves should be less than the actual width of the rolling mill cage.

C) Reduction of rolling width can be achieved by increasing the acute angle of inclination of the pile wall to the plane parallel to the shelves (angle of inclination of the wall). However, as this angle increases to 90", the resistance that has to be overcome when driving the pile also increases. Therefore, for reasons related to the peculiarities of the use of sheet piles, it is recommended that the angle of inclination of the wall does not exceed 75".

Using a computer with a special pile size optimization program built into it, the optimal parameters of the A-type sheet pile with the maximum moment of resistance were calculated.

GI 50 equal to 4400cm? per linear meter of the wall. The A7 type pile calculated in this way has a wall thickness of 15 mm, a mass of 229 kg/m2, and a specific moment of resistance of 19.21 (cmO/m) (kg/m). Taking into account the limitations indicated above, the moment of resistance at 4400 cm? is limiting for a 7-shaped sheet pile. A further increase in wall thickness is in principle possible, but such a solution with a slight increase in the moment of resistance will lead to a noticeable decrease in the specific moment of resistance of the pile.

Based on the above, this invention was based on the task of finding such a solution,

GF) which would allow to increase the moment of resistance of the hot-rolled 7-shaped sheet pile to an even greater extent without reducing its specific moment of resistance and without increasing the width of the rolling mill cage.

To solve this problem, the invention proposes a 7-shaped sheet pile, the main distinctive features of the design of which are indicated in the main clause of the claim. because Speaking of the existing state of the art, it should also be noted that the protrusions located at the points of connection of the shelves with the wall, which are already known and described, in particular in 05 1831427 and EK A-686816, are fundamentally different from the protrusions that are in the pile proposed in the invention . In patent 5 1831427, special 72-shaped sheet piles are described, which allow, together with intermediate flat sheets, to create a continuous sheet pile wall.

The special piles described in this patent are more similar piles made of cast iron. The wall of these piles is located at an angle close to 90" to a plane parallel to the outer planes of the shelves. At the points of connection of the wall with the shelves in these piles, there are ribs, tides, edges or protrusions that are part of the pile itself or are connected to it by the corresponding method. The sole purpose of these ribs, tides, shoulders or protrusions is to be used as connecting elements and fit into the correspondingly shaped grooves provided in the intermediate flat sheets. The presence of such connecting arrangements allows the attachment of intermediate flat sheets between two 2-shaped piles, thereby forming a continuous sheet pile wall from them. EC patent A-686816 describes O-shaped sheet piles of small height, which have reinforced sections located at the junction of the wall and the shelves. In the assembled ones, one of with one of these piles, these reinforced areas, located immediately in front of the opening in the grip of the first pile, together with the inner part of this /o grip form connecting and an element that interacts with the outer part of the grip located on the second sheet pile.

The hot-rolled 7-shaped pile proposed in the invention, as well as all other hot-rolled 7-shaped piles, has two shelves with essentially parallel outer sides and an inclined wall connected to them.

This wall forms an acute angle less than or equal to 75", with a plane parallel to the outer sides of /5 shelves, and is bounded between its junctions with the shelves by two essentially flat surfaces. The hot-rolled sheet pile proposed in the invention differs from the conventional hot-rolled pile mainly in that , that each of its two shelves has a section increasing its width, which protrudes beyond an imaginary plane coinciding with the flat surface of the wall, located on the same side of it as the outer side of the corresponding shelf.

The advantage of the sheet pile proposed in the invention is that with a slight increase in the consumption of 2o material and, therefore, with a small increase in the mass of the pile per square meter of the wall, due to a significant increase in the moment of resistance, the specific moment of resistance also increases. It is especially necessary to emphasize that the increase in the moment of resistance of the pile was achieved without increasing the width of the rolling mill cage, without increasing the thickness of the shelves with a possible increase in their useful width. The proposed solution makes it possible to increase the strength of the pile corners in the places where the shelves connect with the outer side of the wall and, therefore, to reduce the possibility of damage to these critical areas of the pile when it is driven into the ground. Such strengthening of the pile corners, which ensures its higher corrosion resistance at low groundwater levels, is a very significant point, and) because in the places where the wall and shelves meet, 72-shaped piles are more exposed to corrosion than O-shaped piles. It should also be noted that in the pile proposed in the invention, the shelves have large bearing surfaces (outer sides of the flanges) to which the enclosing elements of the anchor plates adjoin, and that in the proposed pile a better transfer of anchor forces from the shelves to the wall and from walls to shelves. with

In addition, it should be noted that the solution proposed in this invention allows you to create sheet piles that have the following parameters: shelf thickness from approximately 19 to 20 mm; "shelf width" 200mm; pile height « 500 mm; moment of resistance per unit length of the wall. 48OOcm3/m; the specific moment of resistance is approximately 20 (cm/m) (kg/m2). "

Below, the invention is explained in more detail on the example of a more acceptable version of the sheet pile proposed in the invention with reference to the attached drawings, which show: o, c in Fig. 1 - a cross section of the pile proposed in the invention and "" in Fig. 2 - on an enlarged scale, the place of connection of the pile shelf in Fig. 1 with its wall. " The 7-shaped sheet pile shown in Fig. 1, like all 7-shaped sheet piles, has two shelves 12", 12" with essentially parallel outer sides 14", 14" and the inclined wall 10 connected to them. The wall 10 forms an acute angle with the plane 16, which is located parallel to the outer sides 14", 14" of the shelves 12", 12". The wall o has a smaller thickness compared to the shelves 12", 12" and is limited between the places of its connection with the shelves 12", 12" and 5" by two essentially flat and parallel sides 18, 18".

Each of the shelves 12", 12" has a connecting grip 20, 20". As such grips, type ve I|AKZZEM grips are used, which, together with similar grips of the adjacent piles, form a connection of the type in the sheet pile wall

ГИ 20 |АВ5З5ЕМ.

The dimensions of the shown pile were calculated on a computer using a special optimization program that allows

T" under the various restrictions mentioned in the introductory part of the description, determine the optimal dimensions of piles with a high moment of resistance.

As a result of such calculations, a pile with the following dimensions was selected:

Ge) the height of the cross section of the pile (the distance between the outer sides of the shelves) n - 482 mm, the width of each shelf 12", 12" o 208 mm, the wall thickness 10 Ц o - 15 mm, the thickness of each shelf 12", 12" о - 19 mm 60, the angle of inclination of the wall 10 o 717

In a sheet pile having such dimensions, the moment of resistance was 4400 cm? per unit length of the wall assembled from such piles with parallel and equidistant from the neutral plane of the curvature of the wall on the outer sides of 14", 14" shelves 12", 12". The specific moment of resistance of such a sheet pile wall turned out to be somewhat less than 20 (cm/m) (kg/m).

In the invention, the task of further increasing the moment of resistance of the sheet pile with the dimensions specified above and obtained as a result of optimization was also set.

This task was solved due to the implementation on each of the two shelves 12", 12" of the pile, increasing its length, the section 22, 22", which protrudes beyond the imaginary plane 24", 24", passing through the flat outer side 18, 18" of the wall, located on the same side as the outer side 14", 14" of the corresponding shelf. The connecting surface 25, which is located on the edge of the shelf 12" of a conventional 2-shaped pile, is shown in Fig. 2 by a dotted line. This connecting surface 25 is rounded, and the outer side 14" of the shelf 12" and the outer side 18' of the wall 10 are located tangentially to it. 70 The wall 10 shown in Fig. 2 is connected to the protruding section 22" of the shelf by a local thickening 26' of the wall 10, which allows to avoid the formation of a concave angle between the protrusion 22 of the shelf and the wall 10. The thickening of the wall 26' slightly reduces the specific moment of resistance of the pile, however, it facilitates the process of rolling the pile and eliminates deformations of the protruding section of the 22" shelf during pile driving. The presence of such thickening contributes to a better transfer of anchoring forces from the shelves 12", 12" to the wall 10 and from the wall to the shelves.

Fig. 2 shows that the protruding section 22" of the shelf is limited by the first plane 30, which is a continuation of the flat side 14" of the shelf 127, by the second plane 34, which is essentially perpendicular to the mentioned first plane

ZO, and a convex cylindrical connecting surface 32 which connects said first plane Z0 to said second plane 34. The thickening 26' of wall 10 further defines a concave cylindrical connecting surface 36 which connects side 18 of wall 10 to said the second plane 34 of the protruding section 22" of the shelf. This shape 2 of the protruding sections 22 and 22" of the shelves produced by rolling the pile is optimal from a technological point of view.

In the pile shown in Fig. 1, the convex cylindrical connecting surface 32 has a radius of 15 mm, and the radius of the concave cylindrical connecting surface Zb is 125 mm. The moment of resistance per unit length of the sheet pile optimized in this way with protruding sections of 22", 22" shelves is 4800 cm m"s, which is approximately 995 times greater than the moment of resistance of a pile in which the shelves do not have such protruding sections of 22", 22". at

The specific moment of resistance of a pile with protruding sections of 22", 22" shelves is approximately 20 (cm/m) (kg/m2).

It should be noted that the rolling of piles with protruding sections of 22", 22" shelves is not associated with any additional problems and does not require, in particular, any increase in the width of the rolling mill cages, which makes the application of the invention particularly suitable for the use of piles with large cross-section dimensions . high school

It is worth noting that the invention is in no way limited to the construction of the sheet pile described above and can be successfully extended to 7-shaped sheet piles of various sizes, in which the moment of resistance per unit of length is less than or more than 4800 cmU/m, as well as to piles with other connecting grippers, different from grippers of the GAKZ5EM type.

IC c)

Claims (9)

The formula of the invention 1. A hot-rolled 7-shaped sheet pile consisting of two shelves with substantially parallel outer h sides and an inclined wall connected to the two shelves, which is located at an acute angle of 750 to the plane parallel to the outer sides of the shelves and is limited between at the places of its connection with the shelves on two essentially parallel sides, which differs in that each of the two shelves has a section increasing its length, which protrudes beyond an imaginary plane that coincides with a flat surface that is located on the same side of it as and the outer side of the corresponding shelf. sl 15 | 2. Sheet pile according to claim 1, which differs in that the wall is connected to each projecting section of the shelf by a local thickening of the wall, which avoids the formation of a concave angle between the corresponding section of the shelf and the wall. i" Z. A sheet pile according to claim 2, characterized in that the projecting portion of the shelf is bounded by a first plane which is a continuation of the flat side of the corresponding shelf, a second plane which is substantially perpendicular to the first plane, and a convex cylindrical connecting surface which "connects the first plane with the second GT" plane. 4. The sheet pile according to item C, which differs in that the second plane is connected to the corresponding flat side of the wall, which is concave by a cylindrical connecting surface. 5. A sheet pile according to any of claims 1-4, which differs in that it has the following parameters: o a) moment of resistance per unit length of the wall x 48 obm im b) specific moment of resistance about 20 (cmU/cm) (kg /m2). yes 6. Sheet pile according to any of claims 1-5, which differs in that it has the following parameters: a) the thickness of the shelves is approximately from 19 to 20 mm; 6o b) shelf width 2.200 mm; c) pile height x 500 mm. 7. A sheet pile according to any of claims 1-6, which is characterized by the fact that its wall is located at an acute angle A, which is essentially 717, to a plane parallel to the outer sides of the shelves. BB 8. Sheet pile according to any of claims 1-7, which is characterized in that each of its shelves has a connecting grip. 9. Sheet pile according to any of claims 1-8, which differs in that each of its shelves has a connecting grip of the GAK5ZEM type. with (8) « сч « « IS c) shi s;" 1 ch» ch» with 50 s» F) name) 60 b5