Hydraulic and earth engineering – Earth treatment or control – Shoring – bracing – or cave-in prevention
Reexamination Certificate
2001-11-28
2003-04-29
Swann, J. J. (Department: 3677)
Hydraulic and earth engineering
Earth treatment or control
Shoring, bracing, or cave-in prevention
C405S267000, C405S283000, C405S302400
Reexamination Certificate
active
06554544
ABSTRACT:
TECHNICAL FIELD
The present invention relates to a method to build a continuous, water seal, creep-line increasing cutoff (wall), in which borings have predetermined distances therebetween and foil boards will be formed in the soil, according to the length of the cutoff and under protection of slurry.
The method comprises a first step in forming borings into the soil under protection of slurry and developing narrow slots therebetween by blowing the cutting edge secured to the bottom of foil boards, and a second step of connecting the connecting elements of foil boards recessed into the borings by means of compensating joint-pins and repeating the latter operation up to the last boring. In a preferred embodiment of the invention, armor may be set into the borings, which are then injected with concrete in the place of the slurry.
The present invention enables a cutoff to be effectively built, without the need of trenching, such a cutoff will have a creep-line increasing behavior depending on its distance to the confining bed, and a load-bearing characteristic, because of its facet-like arrangement.
BACKGROUND ART
The presently known methods of cutoff building appeared and started to spread in the early fifties—in the mid-sixties in Hungary—, since their application for sheeting and bracing of a building pit, or building of underground structures (e.g., basements), as well as for water seal objects is more advantageous than the different conventional technologies. downwardly from the surface, then constructing the structure out of the slurry simultaneously or subsequently from the gap.
The cutoff building technology is determined by the behavior of the applied machines. Every machine which is acceptable of building a continuous, load-bearing and/or water seal wall by building-in of suitable materials in a depth beneath its moving plane, will be applicable to build such a cutoff.
Altogether, the cutting action—but always in case of large cuttings—involves two basic steps: excavating the soil and filling the gap.
It is possible to draw a distinction between applicable technologies according to the method of how the soil structure being in the place of the material of the wall volume is removed (carried away, respectively). Accordingly, two primary methods are known:
The ditcher applying technology has two essential characteristics, namely
the soil mellowing by the cutting tool of the ditch might be excavating from the gap to the surface by the vertical movement of the tool controlled from the ditcher.
during the excavation, the slush filling the gap might be mixed due only to the upward and downward movements of the tool.
Applying the drilling methods, only mellowing and braying of the soil are made by the cutting tool (borer, cutter, cutterhead).
The mellowed solid material admixed to the slush being in circulation is removed to the surface in form of slurry. (After backing and cleaning of the slurry, the slush is fed back into the gap.) The slush acts in this technology as an agent enhancing the stability of the gap and also excavating the solid material. This method for building a cutoff had been developed from the so-called ‘left-flushing’ (back-flushing) drilling technology and the appearance of bentonite suspensions having tixothrope characteristics—as a drilling slush or cutting sludge—had had a role of vital concernment.
The aforementioned methods working with soil excavation are applicable to form wide gaps, but a narrower cutoff can be formed by compaction to the side wall of the gap, ergo without excavation of the soil. Among these methods, there is the ETF method and its developed variants having a practical relevance.
This method—in substance—comprises a first step of longitudinally attaching injecting tubes to a high-webbed double-tee beam (or to a cutting tool having any kind of other profile), then hammering it down by machine to a depth according to the cutoff being built, and a further step of grouting contemporaneously the beginning of the cutter-flitting with an afterhardening bonding material passing through the tube (tubes) into the gap. After the solidification of the bonding material, a cutoff block is formed. Patent description HU P 94 03 231 relates to a preferred implementing of the injection and a composition of injected material(s).
The continuous cutoff consists of cutoff blocks being formed one after another, the continuity of which is established with a so called ‘cutting back’ action. Applying two cutting tools at the same time with the second one remaining in the soil as long as it takes for the gap of the first one to become fully injected. This technology can be advantageously achieved also by a cutting tool disclosed in the granted patent HU 167 865.
Disadvantages of these known methods are the laborsome and slow building process, and that fact, that the complete cutoff (membrane wall) has a diminished water sealing or bleeding decreasing only, not to be loaded and it can be built into a shallow depth only.
A structural embodiment of the cutoff-structures realized in the wide cuttings depends on the scope of the cutoff (whether it should be bleeding decreasing and/or load bearing too).
In some cases, the slush enabling the stability of the cutoff should act as a part of the final structure. Such a cutoff and gap filling material (cement, water, bentonite and retarding agent) are known from the patent description HU 181284.
HU 169 315 discloses a method in which prefabricated wall members are sunk into the gap sustained by a thin-liquid slurry, then the gap will be formed between the wall members and the walls of the gap shall be filled with afterhardening binder material injected into the bottom of the cutting.
In the case of concrete walls prepared in wide gaps, the continuous cutoff is typically built from sections. Such a method can be known from the patent description HU P 84 4727, this method involves a step of building a concrete wall in any section of the cutting, and a second step of locating a recoverable spacing member between this section and the cutting sustained provisionally by thin-liquid slurry, and the continuous water sealing contact is provided by a resilient, permanently located water-proof strip.
The structure and building method of a boarded-panel type cutoff comprising bearing board and sealing board is known from the patent EP 0 333 639, in which the place of the bearing boards (tubes made from steel) filled and surrounded by concrete, is made by drilling technology.
The cutoff described in the patent U.S. Pat. No. 4,304,507 is able to bear considerable loadings. The building of this cutoff takes place by making borings in predetermined distances from one another, then locating a steel beam of H shaped profile in the borings, and then excavating the place of cutoff boards by means of a pressurized water beam.
The cutoff described in the patent U.S. Pat. No. 4,304,507 is able to bear considerable loadings. The building of this cutoff takes place by making borings in predetermined distances from one another, then locating a steel beam of H shaped profile in the borings, and then excavating the place of cutoff boards by means of a pressurized water beam.
In cases obtaining greater impermeability (or bleeding decreasing), secondary sealing devices are applicable in the tixothrope or afterhardening (hardening) material filling the wide cutting.
The provisional publication DE OS 3436 735 discloses a solution, in which a plane type barrier layer interlaced with connecting elements and embedded into a wide cutting filled with suspension and having barrier element consisting of HDPE is formed.
The patent description EP O 298 283 discloses method, in which a barrier wall made of glass panels is provided and embedded into the slush of the gap. In this patent, the inner cavities of connecting links of the wall are filled by the slush.
From Hungarian published patent HU 205 177 is known a method, in which the foil sheets provided with connecting links at the edges thereof are sunk into the gap by the force exerted to the bottom part
Kinberg Robert
Mitchell Katherine
Swann J. J.
Venable
Voorhees Catherine M.
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