The subject of the invention is equipment and a method for mixing in loco for the formation of curtains, cutoff walls or similar diaphragms.
Techniques are known for mixing natural soil with aggregating fluids, for example with a base of water-cement or grout mixes, for the formation of columns of consolidated soil. Said mixes are made directly in the soil that is disgregated by means of mechanical bits, the rotation of which also brings about mixing with the aggregating fluid. This fluid, pumped at a pressure of 0.1-0.3 MPa, is conveyed through the drilling rods as far as the bit and exits in the proximity of the disgregating blades.
In more advanced versions of the method, the aggregating fluid is pumped at a pressure of 20-40 MPa and exits from special nozzles in the form of a jet with extremely high kinetic energy, which contributes markedly to the disgregation and mixing with the soil. The disgregating blades move in a mix already rendered soft by the action of the jets and can turn with less effort and at a higher speed, and guarantee a minimum diameter of the column and a high rate of advance (see, for example, the publications EP-1.045.073 and U.S. Pat. No. 5,396,964).
Also known from the patent No. EP-1.452.645 is a method for the formation of diaphragms of soil mixed with aggregating fluids based upon equipment with drums rotating about horizontal shafts equipped with teeth. The horizontal cross section of the excavation is then rectangular in shape. The arrangement of a number of excavations alongside one another enables the construction of underground walls or curtains (diaphragms) of consolidated soil. In this case, the low pressure of the fluid and the fixed direction of delivery do not facilitate penetration or mixing.
The purpose of the present invention is the construction of diaphragms of soil consolidated by means of mixing with aggregating fluids, characterized by an excellent mixing quality and by a rate of advance enhanced by the action of jets with high kinetic energy.
To achieve this and other purposes that will emerge more clearly from what follows, the invention proposes providing equipment for mixing in loco for the formation of diaphragms according to Claim 1 and a method for carrying out mixing in loco for the formation of diaphragms using said equipment according to Claim 11.
The invention will now be described with reference to the attached plate of drawings, in which:
First of all, from
Positioned at the bottom end of the rods 10 is a set of bits 11 that may be seen more clearly in
Arranged within a quadrilateral (rectangular) caisson 12 are bits 13 which, being fixed each to the bottom end of the rods 10, turn the first in a clockwise direction, the second in a counterclockwise direction, and so forth.
Each bit comprises, starting from the bottom up:
a disgregating blade 14 provided with teeth 15, designed to remove the underlying soil;
a non-rotating structure 16 for connection between the bits to keep the distance between them fixed; and
a first rotating blade 17 with mixing members 18 set in the direction of the fixed structure 16.
The fixed structure is also equipped with mixing members 19 in positions interspersed with respect to those 18 of the blade 17, so as to entrap and break down (grind) the debris of larger dimensions.
A second mixing blade 20 is set between the fixed structure 16 and the disgregating blade 14.
Mixing members 21 are positioned under the second blade 20, and similar mixing members 22 are positioned under the fixed structure so that they too can entrap and break down (grind) the debris of larger dimensions.
First radial nozzles 23 conveniently find space for their accommodation between the disgregating blade 14 and the first mixing blade 17.
Second radial nozzles 24 are set in a downward direction under the disgregating blade 14. Both the first nozzles 23 and the second nozzles 24 turn together with the bits.
The nozzles 23 and 24 are supplied with an aggregating fluid that arrives, through channels inside the rods 10, as far as the set of bits 11.
The set of bits 11 is, at least in part, enclosed in the caisson 12 constituted by a perimeter of vertical metal plates that delimit a rectangular section of excavation. The diameter of the blades is such as to excavate partially overlapping columns of diameter substantially equal to the smaller side of the rectangular section.
The areas at the four extreme corners 25 and the areas 26 not excavated by the bits, but in any case comprised within the rectangle, are demolished by the radial jets 23 of aggregating fluid, the position of which in height is at the level of the bottom rim 27 of the perimetral metal plates. The jets reach with their action up against said metal plates and are by these hindered or limited. The high kinetic energy with which the fluid is sprayed through the nozzles 23 and 24 is a determining factor in demolishing the soil in the <<dead>> areas of the caisson 12.
Arranged at the top end of the rods 10 (see
In this way, the device is substantially balanced to rotation. The power-drive assembly is then guided on a tower-guide 30 that prevents undesirable rotation thereof. The height of said guide constitutes a limit to the depth of treatment that can be reached.
In an alternative embodiment illustrated in
For the eventuality of caving-in of the walls or early hardening of the aggregating mixture hindering extraction of the device immersed in the treated soil, located at its top are milling systems 44 capable of disgregating the aforesaid obstacles and enabling extraction of the equipment from the ground.
For the orientation of the system at the start of excavation a known guide device is used. It is constituted by an external guide 45 hanging from the machine (crane), with hollow prismatic cross section, and an internal guided element 46, also with prismatic cross section. The external guide is orientable by means of a motor-driven assembly 47 at the point of suspension. When the disgregating device or set of bits 11 is out of the soil and even when it is buried for the first few metres of drilling, the two guides 45 and 46 are engaged. At greater depths, the device becomes independent and guides itself along the walls of the excavation made. For control of the direction of excavation guide devices 48 are used, which are also known, such as for example those described in the patent No. EP-0.791.690.
Located in the external guide are drums 27 for winding thereon hydraulic pipes 28 (or electrical cables) that supply power for the device.
Said systems do not ensure a perfect synchronism, so that the bits of the device 11 must have blades arranged at different heights to prevent any accidental interference.
Also the motors 28 are located at different heights to facilitate the vertical movements of the device within the mixture of soil and aggregating fluid.
In particular, the lateral rods 42′ are longer than the central ones 42″ (which are almost inexistent), so that the central motors 28″ will be located lower than the lateral ones 28′.
As may be noted more clearly in
Number | Date | Country | Kind |
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TO2005A000447 | Jun 2005 | IT | national |