EP1163397A1 - Method for forming a bulkhead sealed with mortar and the bulkhead manufactured thereby and the tongue-and-groove element for the bulkhead - Google Patents

Method for forming a bulkhead sealed with mortar and the bulkhead manufactured thereby and the tongue-and-groove element for the bulkhead

Info

Publication number
EP1163397A1
EP1163397A1 EP00912703A EP00912703A EP1163397A1 EP 1163397 A1 EP1163397 A1 EP 1163397A1 EP 00912703 A EP00912703 A EP 00912703A EP 00912703 A EP00912703 A EP 00912703A EP 1163397 A1 EP1163397 A1 EP 1163397A1
Authority
EP
European Patent Office
Prior art keywords
tongue
groove
mortar
tube
bulkhead
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP00912703A
Other languages
German (de)
English (en)
French (fr)
Inventor
Jouko Lehtonen
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Rautaruukki Oyj
Original Assignee
Rautaruukki Oyj
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Rautaruukki Oyj filed Critical Rautaruukki Oyj
Publication of EP1163397A1 publication Critical patent/EP1163397A1/en
Withdrawn legal-status Critical Current

Links

Classifications

    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02DFOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
    • E02D5/00Bulkheads, piles, or other structural elements specially adapted to foundation engineering
    • E02D5/02Sheet piles or sheet pile bulkheads
    • E02D5/03Prefabricated parts, e.g. composite sheet piles
    • E02D5/04Prefabricated parts, e.g. composite sheet piles made of steel

Definitions

  • the present invention relates to a method for forming a bulkhead sealed with mortar by driving a number of bulkhead elements principally of metal into soil, the elements comprising an elongated tongue, the lower end of which is at least partly closed with a tip element, an elongated groove and a web connecting these parts, whereupon the tongue and groove are attached to each other by first registering either one of them to the other and by then pushing them in the longitudinal direction into an interlocking position within each other, and by feeding mortar or a similar substance at least to an area limited by the groove.
  • the invention also relates to a tongue-and-groove element for a bulkhead in soil, and to a bulkhead including a number of such tongue-and-groove members which comprise an elongated tongue the lower end of which is at least in part closed by a tip element, and an elongated groove and a web connecting these, the tongue and groove being of metal and nested in the bulkhead, so that from a tongue of a specific tongue-and-groove element inside a groove, the web extends to the groove of the tongue-and-groove element through the longitudinal slot in this groove.
  • the bulkhead may comprise a tubular pile and connection elements, which in this case usually are open profiles, such as overlapping C and T profiles welded over the whole length to the opposite sides of a pile tube of a large diameter.
  • the publication EP-0 628 662 further discloses a separate tube extending along the whole length of the groove and placed inside it; this tube prevents soil from falling into the tongue and groove, and it may further be used for rinsing the tongue and groove and feeding sealing material into the tongue-and- groove joint. This tube is removed and it may be used again for the same purpose in later tongues and grooves.
  • the publication US-5,782,583 discloses the rinsing of a tongue-and-groove joint with water after its parts have been inserted into soil, and then the feeding of sealing material into the joint by an injection tube.
  • each piling element of stainless steel of which consists of several tubes, which are fastened to each other with connection plates, and one tube at the edge of the piling element is of a smaller diameter than the other tubes of the element.
  • the piling element also includes a base comprising a sheet piece of a width of the element; the lower edge of the base is either straight, or it forms an acute angle of, for example, 90° or 60°.
  • the lower edges of all the tubes and the possible length extensions of the tubes include an injection ring in the interior of the tube provided with a number of upwards directed holes.
  • the edge tube of lower diameter is provided with a guide cutter cutting longitudinal slot to the larger tube as the smaller tube is pushed inside the bigger tube of the adjacent element.
  • the bulkhead is extended in the horizontal direction by taking a thinner tube inside the larger tube, while at the same time cutting a longitudinal slot required by the connection plate to the wall of the larger tube.
  • the publication also discloses other kinds of tongues and grooves, which are used as the thickness of the material exceeds 4 mm; in this case, the tongue is not a tube, but solid material.
  • the piling element is first driven to soil into the final and desired piling depth, and only then mortar is injected into the holes of the injection ring so that mortar is only found around the injection holes and thus possibly only at the lower ends of the tubes as material concentrations.
  • the mutual sealing of adjacent piling elements is carried out during piling because of the elasticity of the stainless steel material of the larger pipe cut open by the guide cutter as the larger pipe is tightly pressed on the smaller tube or, alternatively, by using a rubber seal.
  • the piling element of the publication is expensive, and the longitudinal cutting of the wall of the larger tube during piling increases the necessary impact strength; this requires special parts, which thus have been described in the publication.
  • the publication US-5 388 931 discloses a modular wall consisting of plastics, the edges of the modules of which on the one hand comprise an internal tube and, on the other hand, an external tube provided with a longitudinal slot.
  • the lower end of the internal tube comprises holes, and the lower end is open.
  • the modular wall is arranged to soil by digging a pit of desired depth using an excavator and by pumping it full with a mixture of water and bentonite, which prevents the pit edges from collapsing.
  • a plastic module is hoisted into the pit by using a crane and a steel plate, the spikes of which are pressed into the holes of a plastic plate connecting the internal tube and the external tube; as the module is in the pit, the steel plate used as help is removed. Finally, the interior of the internal tube and the space between it and the external tube is rinsed with a cleansing liquid flowing through the openings in the interior tube and/or through the open lower end, after which barrier material, such as mortar, is pumped into the points in question.
  • barrier material such as mortar
  • the first object of the invention is to provide a method and structural parts for producing such a waterproof bulkhead at least partly made of metal, which may be used both as a supporting wall and a dam wall and which would have a sufficient strength in various localities.
  • the second object of the invention relates to such a bulkhead and to a method for forming it, in which method the blocking of that part of the tongue-and-groove joint driven first into soil can be prevented as well as possible, and thus it is possible to drive the second counterpart of the tongue-and- groove joint into soil without any problems to form a connection with said first counterpart.
  • the third object of the invention relates to such a bulkhead and a method, with which the tongue-and-groove joint can be made proof against leakage by simple measures and by using inexpensive materials.
  • the fourth object of the invention relates to such a bulkhead and a method, in which the structural parts can be shaped and measured as freely as desired for each specific purpose.
  • the fifth object of the invention relates to such a bulkhead and a method, with which one or both sides of the bulkhead, for example, made of steel, can be made to resist corrosion better than a bare metal surface, when necessary, and at least in some uses.
  • the sixth object of the invention relates to such a bulkhead and a method, which would also have sufficient friction in relation to soil, when necessary.
  • the tongue of each tongue-and-groove joint is in soil before the respective groove, thus deviating from the above described techniques. Further, the substance sealing the tongue-and-groove joint is spread into place at the same time as a part of the bulkhead wall is driven into soil, and no additional steps are necessary to bring it into position.
  • the hardening hydrous substance is effectively and fast transferred from the interior of the metal tongue through the holes into the cavity formed by the collar around the tongue and groove merely by the action of the into soil driving impacts and/or driving vibrations of the pile.
  • the groove is then driven into this hardening substance along the tongue so that the substance remains as a seal between the tongues and grooves and to surround the groove.
  • the groove is arranged sufficiently near the tongue by using a narrow web, and the entire wall may be covered by the hardening substance and later by the hardened substance, which improves corrosion resistance.
  • Figs. 1A - IE are schematic views of the first steps of the method of the invention, when using a tongue-and-groove element of the first embodiment of the invention and there a pile shoe provided with a long tip element in longitudinal section perpendicular to the ground level , corresponding to the line I - I in Fig. 2B;
  • Figs IF - 1H are respective schematic views to Figs. 1A - IE of third steps of the method of the invention, in which the tongue-and-groove element of the invention is extended in vertical direction with a similar tongue-and-groove element, while at the same time driving the extended bulkhead element deeper into soil;
  • Figs. II - IL are respective schematic views to Figs. 1A - 1H of second steps of the method of the invention, in which the tongue-and-groove element is extended in horizontal direction with similar tongue-and-groove elements, while driving the extending tongue-and-groove element deeper into soil, and of a part of bulkhead thus produced in soil;
  • Figs. 2A and 2B show schematically a part of a finished bulkhead achieved by a tongue-and-groove element of the second embodiment of the invention driven into soil in a vertical section along the line I - I of Fig. 2 in respect to the ground level and, respectively, in a horizontal section along the line II - II in Fig. 2;
  • Figs. 3A - 3B is a schematic vertical section perpendicular to the ground level along the line III - III in Fig. 4 of the first and third steps of the method of the invention, in which a tongue-and-groove element according to the third embodiment of the invention comprising a groove, a tongue provided with a pile shoe, and a principally tubular web, is driven into soil and extended in horizontal direction with similar tongue-and-groove elements, at the same time as the extending tongue-and-groove element is driven deeper into soil;
  • Fig. 4 is a schematic horizontal section along the line IV - IV in Fig. 3B in direction of the ground level of a part of a finished bulkhead achieved by tongue-and-groove elements according to the third embodiment of the invention;
  • Fig. 5A is a more detailed longitudinal section along the line VI - VI in Fig. 5B of the first embodiment of the tongue-and-groove element of the invention, comprising a tongue, a flat web and a pile shoe connected to the tongue, and alternative connections for the tongue and groove for achieving length extensions;
  • Fig. 5B is a more detailed cross-section along the line V - V in Fig. 5 A of the first embodiment of the tongue-and-groove element of the invention, the tongue inside the groove being shown in dashed lines;
  • Fig. 6A is a longitudinal section along the line VII - VII in Fig. 6 of a preferred embodiment of the tongue-and-groove element of the invention, comprising a groove, a flat web and a pile shoe connected to the tongue, and a mortar tube provided with a pile shoe in the web, so that the position of the tongue deviates from the position of the groove;
  • Fig. 6B is a cross-section along the line VIII - VIII in Fig. 6A of a second preferred embodiment of the tongue-and-groove element of the invention.
  • Fig. 7A is a longitudinal section along the line IX - IX in Fig. 7B of a fourth embodiment of the tongue-and-groove element of the invention, comprising a groove, a flat web and a pile shoe connected to the tongue, and several mortar tubes without a collar in the web;
  • Fig. 7B is a cross-section of the fourth embodiment of the tongue-and-groove element of the invention along the line X - X in Fig. 7A;
  • Fig. 8 is a respective cross-section to Fig. 5B of a fifth embodiment of the tongue- and-groove element of the invention, making it possible to form an angle to the bulkhead;
  • Fig. 9 is a respective cross-section to Fig. 6B of a sixth embodiment of the groove- and-tongue element of the invention, with which it is possible to form an angle to the bulkhead.
  • the tongue-and-groove element 1 for a bulkhead in soil comprises a generally elongated tongue 3 or longitudinal bead closed at the lower end by a tip element 1 1 and an elongated groove 2 or longitudinal bead and a web 4 connecting the tongue and the groove.
  • the web 4 may generally be of any type, which may contain sections of different types.
  • the tongue-and-groove element is usually referred to with the reference number 1 , when it is not necessary to separate the different tongue-and-groove elements from each other; alphabets are additionally used, when horizontally adjacent tongue-and-groove elements la, lb, lc, etc.
  • tongue-and-groove elements l l 5 1 2 , 1 3 , etc. or a combination of these characters, i.e. generally la ⁇ .. .N , lb t ...N , etc.
  • the same notation is also applied to other reference numbers, when necessary.
  • the tongue and the groove consist of metal, i.e. typically steel, and they nest in the longitudinal direction.
  • the tongue 3 is hollow comprising a tongue tube 7 K with a casing or wall 18 closed over the main part of the length
  • the groove 2 is also hollow comprising a groove tube 6 * with a prefabricated longitudinal slot 8 extending substantially through the entire length of the tongue and groove;
  • the width W4 of the longitudinal slot is at least equal to, but generally slightly larger than the thickness W5 of the web 4.
  • the width W4 of the prefabricated longitudinal slot 8 in the groove is substantially smaller than the outer diameter D2 of the tongue 3 and thus of the tongue tube 7 K so that the tongue inside the groove cannot come loose in the transverse direction to the longitudinal direction LI of the tongues and grooves.
  • a groove principally of the type of a C profile and a tongue of the type of a T or P profile is generated, although the cross-sectional shape of the tongue and groove tubes 7 K and 6 * may vary within large limits.
  • tubes with a circular cross-section as in the figures, but it also is possible to use tubes of oval or angular cross-section.
  • the cross-sectional shapes of the groove and the tongue are principally similar so that the space between them may be kept relatively small.
  • Such a tongue-and-groove combination is assembled so that, in accordance with the invention, the groove 2 of the next tongue-and-groove element 1 is positioned in line with the tongue 3 of the tongue- and-groove element 1 in soil M; then the groove 2 is pushed onto the tongue in the longitudinal direction LI of the tongues and grooves so that it sets around the tongue.
  • Such a tongue-and-groove joint also endures forces in all directions transverse to the length LI of the tongues and grooves without coming loose.
  • the web connecting the tongue and the groove is formed at least of a sheet section 9 in direction of the said tubes, and of possible tubes, which will be described in more detail later.
  • the tongue-and-groove element further comprises a pile shoe 5 or 5* merely at the lower end of the tongue 3, or possibly a mortar tube 7 L in a way which will be described later, the pile shoe comprising a longitudinal tip element 10 and a collar 12, the maximum diameter DI of which is larger than the tongue 3 or the outer diameter D2 of the tongue tube 7 ⁇ , and flow apertures 17 opening from the interior 13 of the tongue 3 or the tongue tube 7 K above the collar 12 for outflow of mortar B.
  • the above mentioned possible position points for the pile shoe indicate that the lower end of the groove 2 does not have a pile shoe, but the tongue tube 6* forming the tongue opens downwards, i.e. to soil.
  • the theories are applied which have been presented in the non-public patent application FI-982699 by the same applicant.
  • the feeding of mortar around the tubular pile during installation described in connection of the previous invention is utilized; additionally, the guiding tip element 10 of the pile facilitates the direct progress of the bulkhead element into soil M at the same time as the tubular pile itself works as the male connection element i.e. tongue 3, and the female connection element i.e. groove 2 is able to advance in mortar B surrounding the tongue without problems.
  • mortar B After mortar B has hardened, it forms a strengthening filling in the interior 13 of the tongue, a sealing substance filling the space 40 between the tongue and the groove, and a layer 41a surrounding and protecting the groove.
  • the bulkhead element 1 comprises a mortar tube or mortar tubes 7 L , 7 LB which are arranged between the tongue tube 7 K and the groove tube 6* and which are all substantially parallel.
  • the pile shoe 5 thus comprises a closed longitudinal tip element 10, the length L2 of which is at least five times the outer diameter D2 of the tube in question, and flow apertures 17, which pass through the pile shoe 5 and/or the connection element 14 described later and/or the wall 16, 18 of the tongue tube 7 K .
  • the tongue 3 or the tongue tubes 7 K , and also the possible mortar tubes 7 L are substantially or totally closed at least directly downwards, i.e.
  • the flow apertures 17 preferably open outside these tubes above the collar 12 of the pile shoe, as is described in more detail later.
  • the tongues are closed below the widest point R of the collar 12 of the pile shoe.
  • the flow apertures 17 pass through the wall
  • the mortar tubes 7 LB contain no flow apertures, but entirely solid tubes, which are filled with mortar B and, when necessary, with reinforcements, such as concrete reinforcements 37 for achieving strong columns bracing the bulk element 1.
  • the outer diameter D3 of the tip element 10 is at most equal to the outer diameter D2 of the pile tube
  • the tip element consists of a metal bar, as in Figs. 6A - 6B, or a metal tube, which may be a section of the connection element 14, as in Figs. 5A - 5B, or it may be formed of a section of the tongue tube 7 K or the mortar tube 7 L provided with a collar or the mortar tube 7 LB with no collar, as in Figs. 7A - 7B.
  • the distance L2 between the point R corresponding to the maximum diameter DI of the collar 12 and the lower end 38 of the tip element is at least five, but preferably at least seven, and possibly ten times the outer diameter D2 of the pile tube.
  • the tip element 10 of the tongue 3 is closed either by the tip element 11, or it is closed by the collar 12 or the metal bar or connection element 14 acting as its extension.
  • the mortar tubes 7 LB are closed by the tip element 11.
  • the collar 12 comprises an outer surface 19 narrowing or tapering at least partly towards the lower end 38, which, when driven into soil, seals the collar, making it thus possible to generate a relatively stable cavity T around the tongue for mortar B and for the groove to be brought in later.
  • the flow apertures 17 typically open outside to the tongue 3 in radial directions and above the widest point R of the collar.
  • the definitions above, above and below, respectively, and below refer to the relative location in the position of the bulk element so that the latter definition describes the direction coming to soil M and the former the direction towards the ground, no matter whether the ground is horizontal or oblique, or whether the tongue-and-groove element 1 lies straight or inclined in relation to the ground.
  • the collar 12 comprises a thorough hole 36, the diameter D6 of which is at least nearly equal to or larger than the outer diameter D3 of the tip element for passing through of the mortar tube/tongue tube 7 K , 7 L or the connection element 14 acting as its extension.
  • the possible connection element 14 is located between the mortar tube/tongue tube 7 L , 7 K and the collar 12, and it extends from above the collar to below thereof, and its upper diameter D4 is bigger than the lower diameter D3, i.e. the outer diameter of the tip element, and the connection element 14 comprises a stop face 27, the upper diameter D4 of which is bigger than the diameter D6 of the collar hole 36 for supporting against the upper surface 28 of the collar.
  • connection element 14 or the collar 12, respectively, comprises connection elements 26 for fastening the lower end of the tongue tube or the mortar tube 7 L , 7 K to it.
  • the fastening with the elements 26 may be carried out either to a sleeve facing the groove, as in Fig.
  • the inner diameter of the sleeve is equal to or slightly smaller than the outer diameter D2 of the tongue 3, and in the latter case, the outer diameter D8 of the pin is equal to or slightly larger than the inner diameter of the tongue 3 for achieving a tight crimp connection.
  • the connection may still be secured by a slot 39 receiving the end of the tongue, the principle of the slot having been described in the earlier patent FI-81415 by the same applicant. This slot is shown in Fig. 6A, but it may also be applied to the embodiment in Fig. 5 A.
  • the collar 12 comprises an upwards-lifted outer edge 25 so that an upwards opening recess 15 surrounding the mortar tube/tongue tube 7 K , 7 L is formed.
  • the connection elements 26 may also comprise welds, rivets, pins, screws, bolts, etc. not shown in the figures for securing the fastening between the tongue and the connection element or the collar.
  • the tongue tube and the mortar tube respectively, comprise at the upper end an opening/openings 29 for feeding liquid mortar B into the interior 13 of the tube in question; the opening 29 may simply comprise an upper end of the tongue 3 which is open either at the moment of feeding the mortar B, or it may be continuously open. It is also possible to use aggregates or an adapter, which are known in themselves or new, such as bends or similar parts, with which mortar B may be fed into the interior 13 of the tongue at the same time as the force F driving the tongue- and-groove element into soil M is directed to the upper end of the tongue.
  • the said longitudinal slot 8 extends over the entire length of the groove, and the inner diameter D7 of the groove tube is substantially larger than that of the tongue tube 7 K or the largest outer diameter D2 or D4 or D8 of its possible extension pieces.
  • the groove tube 6* then fits to push onto the tongue 3 or the tongue tube 7 K in the longitudinal direction LI so that mortar B is not pushed away from the space 40, but it remains in place and forms a seal for the tongue-and-groove joint after hardening.
  • the tongue 3 and the groove 2 are permanently connected to each other with the web 4, consisting principally of a straight or curved metal sheet section 9, or a section containing bends.
  • the web 4 consisting principally of a straight or curved metal sheet section 9, or a section containing bends.
  • Figs. 5A - 6B and 8 and 9 there are straight sheet sections 9, while the Figs. 7A - 7B contain both straight, curved and winding sections in an exemplary way.
  • the sheet section or sheet sections 9 of the web 4 are typically fastened both to the outer surface of the tongue tube and the groove tube by longitudinal connections 31, as weld connections.
  • the tongue, the groove and the web as such may also be manufactured as one piece by casting or extrusion, such as tubes, but this way the parts will probably become too expensive, and there will probably also occur technical difficulties in the manufacture.
  • the web 4 principally consists of one or several pile tubes 20, which are attached to the adjacent pile tubes 20 and/or tongue tube 7 K and the groove tube 6* by metal sheet sections 9 and longitudinal connections 31.
  • the pile tube 20 may be a metal tube 21 open from both ends, the diameter D9 of which is in most cases bigger than the diameter D2 of the tongue or bigger than the diameter D10 of the groove, as can be seen from Figs. 3A - 4.
  • the interior of such an open pile tube 21 fills the soil at least in part with material, but with it a very rigid bulkhead wall 30 is easily achieved, although in this case, part of the bulkhead will not covered by a mortar layer.
  • the said pile tube 20 may also be a mortar tube 7 L , which comprises at its lower end a pile shoe 5* consisting of the above described longitudinal tip element 10 and collar 12 and flow apertures 17, which open from the interior 13 of the mortar tube above the collar 12 for the outflow of mortar, as is shown in Figs. 6A - 6B and 9.
  • a mortar tube is usable in a situation, in which the bulkhead 30 has to be made entirely covered by the mortar layer 41a, 41b and 41c, as is shown in Figs. 2A - 2B.
  • the said pile tube 20 may also be a mortar tube 7 LB comprising at its lower end only the tip element 1 1 closing the mortar tube, but no flow apertures for mortar; such a mortar tube may be filled with mortar B and possible concrete reinforcements 37, but it will not be coated with mortar.
  • the distance between the groove and the tongue in each tongue-and-groove element 1 or, in case of a solution with a mortar tube, the distance between the groove and the mortar tube, and between the mortar tube and the tongue, as well as between the collar/collars, and the diameter/diameters, respectively, have to fulfill the following conditions.
  • the distance Wl between the central lines 32 of the mortar tubes 7 L with collars and/or the distance Wl between the central lines 32, 33 of the tongue tube 7 K and the mortar tube 7 L have to be at least equal to the maximum diameter DI of the collar in this direction.
  • the distance W2 between the central line 33 of the tongue tube 7 K and the nearest point of the outer surface 34 of the groove 6* has to be at most equal to the maximum diameter of the collar in this direction.
  • the outer diameter D10 of the groove tube 6* has to be smaller than the maximum diameter D of the collar 12.
  • the longitudinal slot 8 of the groove in bulkhead elements 1 consisting only of a tongue 3 and a groove 2 is arranged on the opposite side of the groove tube 6 as the tongue, for example in a way which can be seen in the Figs. 2B, 4, 5B, 6B and 7B. If the shape of the web 4 deviates from straight and if it has been attached in the groove and/or tongue elsewhere as on the connecting level of their central lines 42, 32, the longitudinal slot 8 is respectively located at the deviating place.
  • a longitudinal slot 8 is arranged to another point on the circumference of the groove 2, or the web 4 is fastened to another point on the circumference of the groove 2.
  • tongue-and-groove elements 1 are shown for achieving right outer angles or inner angles, but it has to be understood that other angles may be formed by placing the longitudinal slot 8 or the web 4 to another point.
  • the tongue 3 is arranged to the side of the mortar tube 7 L joined by the sheet section 9 of the second web 4*, the width W3 of the second web 4* forming a predetermined angle KI in relation to the distance Wl between the first tongue and the groove 6 away from the second tongue.
  • the level formed by the tongue-and-groove slot 8 and the central line 42 is at an angle K2 in relation to the distance W2 between the central line 33 of the tongue 3 and the outer surface 34 of the groove tube 6.
  • Fig. 6A As a form for the tongue-and-groove element 1 there is in Fig. 6A shown a solution, in which the pile shoe 5 of the tongue, more precisely said its widest point R is lies a distance L3 lower than the lower edge of the groove 2 for changing the installation depth in a way which is indicated in Fig. 2 A.
  • This form of implementation is needed when the collar 12 is not loosening in the previously described way, but it is necessary to cover the tongue-and-groove elements entirely covered with mortar B at the same time as it has to be possible to at least maintain the immersion depth S 1 of the tongue-and-groove elements.
  • the above described small distance W2 between the groove and the tongue of the tongue-and-groove element 1 causes that the tip element 10 or at least the collar 12 of the adjacent bulkhead element lb ⁇ ...N driven into soil later hits the collar 12 of the bulkhead element la ⁇ ... N driven into soil earlier so that the lower end 38 of the tongue-and-groove element lb N . .. ⁇ driven into soil later would remain on an upper level than the lower end of the previous tongue-and-groove element/elements, which may be of disadvantage.
  • the bulkhead 30 By providing the bulkhead 30 with the above described tongue-and-groove elements of a specific type at required intervals, it is possible the make their lower end 38 to either remain at the average desired depth SI or to sink down into the desired depth SI, depending on the distance L3.
  • the installation depth for the bulkhead With a high value for the distance L3, the installation depth for the bulkhead can be increased as the installation of the wall advances, and with a lower value, the installation depth may be kept on average unaltered; then it naturally has to be taken into account that also the density of the placing of the special bulkhead elements changing the installation depth in the bulkhead changes the average installation depth SI .
  • extension pieces 23 may be internal or external sleeves, on or correspondingly inside of which the ends of the groove tubes 6* and/or tongue tubes and/or mortar tubes 7 K , 7 L , 7 LB and/or other pile tubes 20 extending each other are set, as can be seen in Figs. 5A and 7 A.
  • These sleeve connections carried out by the extension pieces 23 are preferably made by following the principles described in the earlier patent FI-81415 by the applicant.
  • connection may also be secured or locked by using rivets, screws or welds between the groove tube/tongue tube/mortar tube/pile tube and the extension piece, as is described in the earlier non-public patent application FI- 982699 by the applicant. It is also possible to use a splice joint achieved by the welds between the said tubes. At least the successive tongues 3a ⁇ ...N , 3b ⁇ ...N , 3c ⁇ N , etc. are connected to each other by these extension pieces or splice joints, and the grooves 2a ⁇ . .. , 2b 1...N , 2c L .. N , etc. to each other, and the possible pile tubes 20a ⁇ ...N , 20b 1 ...
  • a bulkhead 30 sealed with mortar is formed by driving into soil M a number of bulkhead elements 1 mainly of metal, which in practice usually is steel, so that the tongue and the groove adhere to each other by first directing either one of them as an extension for the other, and then by pushing them in the longitudinal direction LI into an overlapping position in relation to each other, and by feeding mortar or a similar substance at least to an area limited by the groove.
  • a tongue-and-groove element 1 of a type described above is used, and secondly, action is taken in the way described below.
  • the tongue-and-groove element la or laj is driven into soil M by the pulsating force F, either by using a block of big mass or vibration, and then the interior 13 of the tubular tongue is filled with mortar B and the tongue-and-groove element is further driven deeper into soil M with the pulsating force F so that mortar transfers as a flow V through the flow apertures 17 around the tongue 3 into a cavity T made by the pile shoe 5 in soil. Thereafter, mortar B is added into the interior 13 of the tongue either alternately or simultaneously with the driving of the tongue-and- groove element further into soil with the pulsating force F, until the said tongue- and-groove element la or laj has been driven into soil either entirely or almost entirely, according to need.
  • the first tongue-and-groove element lies at the desired installation depth S 1 so that next the step three is adopted, in which the groove 2 of the next corresponding tongue-and-groove element lb or lb i is arranged at the point of and in line with the tongue 3 of the previous tongue- and-groove element lai, after which the next adjacent tongue-and-groove element lb or lb!
  • the width of the bulkhead is added in the horizontal direction by arranging the groove 2 of each succeeding tongue-and-groove element lc, Id, etc., around the upper end of the tongue 3 of the previous tongue-and-groove element lb, and these next adjacent tongue-and-groove elements lc, Id, etc. are driven into soil M by directing the pulsating force F driving into soil to each element for its part either alternately or simultaneously with the adding of said mortar B into the interior 13 of the tongue.
  • a tongue-and-groove joint is then built always between two horizontally adjacent tongue-and-groove elements, the tongue guiding the groove around it.
  • the pulsating force F may be directed only to the web 4, such as the pile tube 20 in accordance with Figs. 3A and 3B so that the force F may easily be used simultaneously with the adding of said mortar B without accessories.
  • the pulsating force F is directed directly to the tongue 3, i.e. to its upper end, the force F is used either alternately with the adding of mortar B, as in Figs. 1A - IL, or, if a previously mentioned aggregate or adapter is used, simultaneously with the adding of mortar B .
  • the said first step or the said third step, respectively, is continued by a second step in the following way.
  • the first tongue-and-groove element l aj at least partly driven into soil M or the next tongue-and-groove elements lbi, lc etc. connected to it by a tongue-and-groove extension are extended with a second tongue-and-groove element la 2 or with second tongue-and- groove elements lb 2 , lc 2 , ld 2 , etc. by using splice joints 22 or extension pieces 23.
  • the tongue-and-groove element thus extended is driven further into soil by using the said pulsating force F and the adding of mortar B into the interior 13 of the tongue, either alternately or simultaneously, as has been described above.
  • These steps are described in more detail in Figs. IF - II.
  • the first and the next adjacent tongue-and-groove elements are vertically extended each in turn with new tongue-and-groove elements la 3 , lb 3 , lc 3 , etc., and the tongue-and-groove element thus extended is further driven into soil by using the said pulsating force F and the adding of mortar B into the interior 13 of the tongue, until the tongue-and- groove elements lie at the desired depth SI .
  • the final result of these steps can be seen in Figs. IL and 2 A.
  • each tongue-and-groove element or the tongue-and-groove element combinations lai , N , ⁇ b ⁇ , .N , lC ⁇ ... N , etc. extended with extensions in the longitudinal direction is continued into soil M, until the tip element 10 of the lowermost tongue-and-groove elements la lb>, lei, etc. reaches the intended depth SI in soil M.
  • the mortar B is let to harden around the groove, between the groove and the tongue, and in the interior 13 of the tongue 3, thus resulting in a finished bulkhead 30.
  • slowly hardening mortar B can be used.
  • the bulkhead can be closed as a circle so that the last tongue is hit to the groove hit into soil first by using a collar, the maximum diameter DI of which is smaller than the inner diameter D7 of the groove.
  • Another alternative is to rinse clean the groove inserted into soil first and to install the tongue with mortar to it.
  • mortar B can be fed into the interior 13 of the tongue without substantial overpressure.
  • the pulsating force F is generated by impacts and/or vibration, and its maximum value is such that a pressure impact occurs in the interior of the pile tube, which is at least 10 bar and preferably at least 15 bar.
  • the mortar used is concrete based mass, i.e. a mixture of a hydraulically hardening binding agent, a filler, such as stone material, and water; or cement based mass, i.e. a mixture of hydraulically hardening binding agent and water; or bentonite based mass, i.e. a mixture of bentonite and water.
  • tongue-and-groove elements according to Fig. 8 or Fig. 9 or elements forming an angle deviating from these may be struck at certain points of the bulkhead between the previous and later tongue-and-groove elements, i.e. positioned horizontally side by side, these elements being likewise extendable in the longitudinal direction LI as the other tongue-and-groove elements.
  • the webs 4, 4* of the tongue-and-groove elements of the bulkhead may, if using wide sheet sections, be formed in a desired way to be stiffening or, for example, bearing the one-side load of soil by using curvatures, wave forms, or other suitable shapes, as is in an exemplary way shown in Figs. 7A - 7B.
  • the shapes are not limited to the ones shown.
  • the interior 13 of the tongue and the space 40 between the tongue and the groove is thus substantially filled with mortar B, and at least the grooves 2 are covered by the mortar layer 41a.
  • the webs 4 of each tongue-and-groove element are covered by an integrated mortar layer 41b together with the mortar layer 41a covering the successive grooves 2.
  • the bulkhead 30 comprises separate mortar tubes 7 L , in which case preferably, but not necessarily, both the mortar tubes and the webs 4 connecting them to each other and/or to the tongues or grooves are covered by an integrated mortar layer 41c.
  • the bulkhead consists of several tongue-and-groove elements la ⁇ ...N , lbj . ..», lc...
  • the mortar B used is concrete based mass or cement based mass or bentonite based mass. Due to the rigidity of the bulkhead, for example, polluted or otherwise removable soil may be transported away, and the mortar pile wall may be left as an edge for the excavation.

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  • Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Chemical & Material Sciences (AREA)
  • Composite Materials (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • Mining & Mineral Resources (AREA)
  • Paleontology (AREA)
  • Civil Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Bulkheads Adapted To Foundation Construction (AREA)
EP00912703A 1999-03-17 2000-03-17 Method for forming a bulkhead sealed with mortar and the bulkhead manufactured thereby and the tongue-and-groove element for the bulkhead Withdrawn EP1163397A1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
FI990594A FI111404B (fi) 1999-03-17 1999-03-17 Ponttiseinä ja sen tiivistys
FI990594 1999-03-17
PCT/FI2000/000217 WO2000055433A1 (en) 1999-03-17 2000-03-17 Method for forming a bulkhead sealed with mortar and the bulkhead manufactured thereby and the tongue-and-groove element for the bulkhead

Publications (1)

Publication Number Publication Date
EP1163397A1 true EP1163397A1 (en) 2001-12-19

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EP00912703A Withdrawn EP1163397A1 (en) 1999-03-17 2000-03-17 Method for forming a bulkhead sealed with mortar and the bulkhead manufactured thereby and the tongue-and-groove element for the bulkhead

Country Status (7)

Country Link
EP (1) EP1163397A1 (no)
AU (1) AU3436300A (no)
EE (1) EE200100488A (no)
FI (1) FI111404B (no)
NO (1) NO20014482L (no)
PL (1) PL350446A1 (no)
WO (1) WO2000055433A1 (no)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1888847B1 (en) 2005-05-20 2015-11-04 Turun Ammattikorkeakoulu Sealing of a piling
JP6728768B2 (ja) * 2016-02-29 2020-07-22 日本製鉄株式会社 鋼矢板壁
CN112572721B (zh) * 2020-12-01 2021-09-21 沪东中华造船(集团)有限公司 斜面槽型隔舱安装线划制方法及斜面槽型隔舱安装方法

Family Cites Families (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5333971A (en) * 1992-11-03 1994-08-02 Lewis John A Interlocking bulkhead
US5388931A (en) * 1993-10-18 1995-02-14 Carlson; Robert J. Cutoff wall system to isolate contaminated soil
US5584610A (en) * 1993-12-23 1996-12-17 Simpson; Garland E. Bulkhead
CN1110735A (zh) * 1994-04-29 1995-10-25 陈国忠 地下横向结梁施工方法及其所用装备管板椿
GB9502025D0 (en) * 1995-02-02 1995-03-22 Jackaman James N Improvements in and relating to and relating to sheet piles,and the like

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
See references of WO0055433A1 *

Also Published As

Publication number Publication date
EE200100488A (et) 2002-12-16
PL350446A1 (en) 2002-12-16
NO20014482L (no) 2001-11-16
FI990594A (fi) 2000-09-18
AU3436300A (en) 2000-10-04
FI990594A0 (fi) 1999-03-17
FI111404B (fi) 2003-07-15
WO2000055433A1 (en) 2000-09-21
NO20014482D0 (no) 2001-09-14

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