CS243408B1 - Casing for excavation of piloting boreholes. Possible to perform purée - Google Patents

Abstract

It solves the problem of a casing, the working end of which is, inside the tubular casing, provided with one strictly orlented part of the core of the coin, which in the form of a transverse rib oriented symmetrically with respect to the transverse cross-section of its casing is provided with a symmetrical edge. The core in the casing is disrupted by the divider and can then proceed freely in the casing, practically without resistance, which was caused in casings without dividers by the high pressure of the compacted core on its walls. This facilitates the emptying of the casing after it is pulled out of the drilled hole or through the press, especially when the core divider is arranged in a retractable manner in its shell. The protruding core dividers relieve radial tension in the walls of the drilled hole. which also occur there by compacting - albeit more coarsely - their surface when the casing penetrates the soil, thereby facilitating the extraction of the casing from the borehole.

Description

(54) Casing boreholes. if necessary to carry out the purses

In the case of a casing whose working end is provided, within the tubular weight of the jacket, there is an ele- cuton of one strictly orented divider core, which in the form of a transverse rib oriented symmetrically with respect to the cross-section of its sheet is provided with a symmetrical lip. By the divider, the core in the casing is disturbed and can then proceed freely, practically without resistance, which was induced in the casing without dividers by high printing of compacted jaj on its walls. This makes it easier to empty the casing after it has been pulled out of the borehole, when the core divider is retracted in its sail. The protruding kenee core splitters release radial tensions in the well borehole walls. This also facilitates the extraction of the casing from the borehole.

FIG

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243408 2

BACKGROUND OF THE INVENTION The present invention relates to a casing which is used for excavating entangled boreholes or for carrying out pressures in a vibrating manner. Such a baffle consists of a tubular sheath, usually of circular cross-section, which is pushed by its forehead under the influence of a vibratory pile driver, to form a core of soil which is removed from the borehole or extrusion when the casing is pulled out.

The disadvantage of the prior art solution of the stoking plant is that the core of the soil and its sheath are very difficult to remove in a long time. This is due to the fact that this core is formed in the deburrer in the form of a shut-off gag of soil, which penetrates into it during excavation of the well.

The discharge of the feedstock, i.e. the removal of the soil core from its interior, is carried out by means of vibrations and a supply of compressed air above the soil core.

Especially difficult is the removal of the core of liquid soils, which contain larger proportions of clay constituents which, in the presence of water in particular, form a sticky ductile material which is particularly well vibrated and even more difficult to evacuate the casing.

Such a cohesive soil must be separated from the inner walls of the casing of the fumigate by additional hammer blows with the effect of vibrations and air pressure on its core. Such an evacuation process is not only time consuming, eloquent, or dangerous in terms of the possibility of injury.

Another disadvantage of the prior art design of the resistor is that the friction resistance of the resistors on the outer walls of the vaporizer results in a friction resistance which is even higher than the friction resistance on its outer walls by shutting the soil core inside its tubular casing and its inner walls.

This has been solved so far by pouring water into the borehole or the suction bore, or at least the water is poured into the borehole itself. This will accelerate its advancement to the soil somewhat, but to significantly speed up its movement and must use the inner walls of the fumigator with compressed air supplied to its interior from below, ie the inlet situated in the area of its forehead, which pushes into the woman. To this end, the pipe must be provided with a pipe with a non-return valve extending in front of the plane of its working face, which however leads to damage and clogging when the pipe is driven into the ground.

The purpose of the present invention is to overcome these problems associated with emptying the slurry, which is achieved according to the invention by providing the working end of the slurry casing with at least one transversely oriented soil core divider exerting pressure on the soil core portions against the inner walls of its pipe. tires.

Characteristic features of the individual embodiments of the divider are according to the invention: its design in the form of at least one transverse rib symmetrically positioned along the cross-section of the tubular sheath of the exchanger and having a cutting edge facing the working face of the sheath, its symmetry according to its longitudinal plane the casing, securing it against spontaneous ejection from the casing of the casing in its working position directly by the casing walls, its ends protruding outside the casing of the casing, also providing these protruding ends with the cutting edge, forming it as part of a possible punching crown blocked in the casing casing the ultimate soil core divider.

Said solution of the casing according to the invention has a number of advantages, both in technical, economic and solitary terms.

From a technical point of view, it would seem at first glance that the earth core divider must be the cause of the slowing down of the casing of the casing into the soil, because of its own resistance the demands on the vibratory pile driver will increase. The core divider itself is a source of increased resistance when the casing is driven into the ground, but its cutting edge-induced lateral pressures of the core parts against the inner walls of the casing and discharge immediately behind the casing by the core parts entering the suddenly enlarged clear cross section of the casing. horizontal cracks.

The snake divider is the core parts completely loose, their compaction not significantly shortly! the track disappears and practically without resistance it progresses inside the casing. Since the friction resistance inside the advancing compacted core has been considerably higher in the prior embodiments of the casing without core divider than the resistance required to drive the casing into the soil, providing the casing with such a core divider reduces energy consumption and speeds up work.

After the divider has been removed from the casing, the contents thereof can be emptied quickly and easily without the need for compressed air or hammer blows on its outer walls. Although the compaction of the walls of the borehole caused by the punched-out boring casing is quite slight, the protruding ends of the core divider and their cutting edges create grooves therein which compromise the compaction and releasing the circumferential external pressure on the casing thereby facilitating pulling out of the casing especially from deep wells or pressures.

Securing the divider against its spontaneous lateral ejection from the lifter sheet directly through the walls of the liner guarantees both its recent working position and its lifetime from the lifter without the need for additional fasteners.

If an extension crown is used in the casing, one soil core divider can be arranged directly in the soil core as an indivisible part or as a removable part, while the other divider, perpendicular to the first divider, can simultaneously serve to hold the crown non-working brow lift.

These advantages with the advantages of embodiments of the stripper according to the invention will become more apparent from the description of specific examples of its solution, which are illustrated in the drawing, where Figure 1 is a view of the working end of the stripper plate with one soil core divider; FIG. 3 is a longitudinal section of the working end of the casing; FIG. 4 is a longitudinal section of the working end of the casing provided with a wear punch crown and two core dividers, one of which is part of the crown and the other it is at the same time an element securing the crown to the working face of the extension, and in FIG. 5 is a longitudinal section taken perpendicular to the section plane shown in FIG. 4.

In accordance with the invention and the drawings, at the working end of its tubular casing 1 (FIGS. 1 and 5), it is provided with at least one transversely oriented soil core divider 5 which causes the core parts to pressurize the core parts. soil in the direction opposite to the inner walls of her jacket

The penetration of this divider 2 into the soil core forming and within its sheath 1 results in a compaction of the core but only on a short path corresponding to the height of the divider 2 in the direction of the extension axis.

Because the soil core divider 2 is formed as a transverse rib symmetrical with respect to the cross-section of the casing 1 and is provided with a cutting edge 2a oriented towards the working face 4 of the casing 1, the wedge surfaces of the shaft exert a pressure against the inner walls 1a of the casing 1. the core and its parts only compact to the extent that they pass through a relatively short area of this divider 2 ·

The symmetry of the blade 2a along the longitudinal plane of the divider 2 ensures a uniform pressure distribution on both sides of the blade 2a. However, once the earth core parts are already behind the divider 2 and find themselves in the suddenly enlarged or enlarged sheath of the sheath 1, the stress in the compacted core parts suddenly relieves the internal pressure, breaks the core parts with cracks or cracks and substantially reduces the core friction as it passes through the sheath. 1 vypažniee.

In order to be able to remove the soil core thus disrupted from the interior of the casing, i.e. from the inside of its casing 1, the core divider X is displaceable in the casing. Its slidable fit in the aperture-shaped apertures in the jacket of the boom may, while initially, represent certain fixed divisors X in its own longitudinal direction, but the environment in which it operates causes its abrasion, and would thus provide such securing. it was not permanent in nature.

For this reason, securing the divider X in its working position is effected such that its overhanging cone is at least not overhung (FIG. 3), so that its own body of the detector X fits inside the casing 1 when it is moved in the aa-aa-aa-aa. its walls do not allow it to move transversely when vibrating the extruder so that unilateral side forces would also be applied to it.

The same effect can be achieved if the core and the core divider have grooves 6 (abr. 2) on the protruding cone, into which, when the divider X is moved under the pressure of the soil in the direction of the axis of the casing.

In all the drawings, the earth core components X are shown in their operating positions, i.e. as blocked against their spontaneous ejection from the casing 1 of the boring casing. When a shrinking crown Z is used in the casing (Figs. 4, 5), there may be one divider χ of the earth core, and it may even be an indivisible aucac.

If one divider X is used in such a case, it can and preferably be used simultaneously as a means and a connection of the coaxial Z to the casing 8 of the casing. However, in the case of the use of the crown Z, it is even more advantageous if two earth core dividers X are used, as shown by novelty *. 4 and 5.

The first divider X and the end of the food end are either fixed in the crown Z, i.e. secured by a weld (Fig. 4), or in a detachable manner by being inserted into the creature and the size ηβ of the corresponding aperture in each opposite side of its housing. inserting this sleeve behind the crowns Z into the working end of the sheath 8 is covered by its inner walls 4 and

The second divider konci and the ends extending over the outer walls 8fc of the sheath 8 and oriented perpendicularly to the first deflector X can then serve as the aforementioned means for securing the crown Z and its connection and the sheath.

This second bifurcator X of the seed-seed kernel must be made either according to Fig. 2 or according to the ota. 3, that is, either the groove and its protruding ends or the height-reduced ends, are to be laterally blocked by the inner straps 60 of the casing 4 of the bar.

The corresponding holes for it in the sleeve behind the crowns Z must be increased by the depth of the grooves 6 or by the degree of reduction of the height of its overlapping ends.

The breaking of the sonicator core with the divider X in said embodiment of the casing allows the casing to be easily emptied by removing the casing without the use of compressed air supplied to the casing without the core divider above the core. This method of digging the plunger boreholes of the foot when transferring the purses.

Accordingly, the invention provides energy savings and thus operating costs and productivity gains. It eliminates the need to use the lower compressed air inlets to reduce friction resistances. The cores of the woman on the inner walls 4 and the casing 4 together with the need for means, e.g. check valves.

Claims (8)

biii blames lick 1. Pipe bore drilling machine, for the purpose of carrying out the pressures in a vibrating manner, consisting of a tubular casing, pushed under the effect of a vibrating pile driver by its selector, characterized by the fact that the working end of its casing (1) has at least one transversely oriented divider. 2) cores of aemines. IN 2. The yarn as claimed in claim 1, characterized in that the divider (3) is formed by at least one transverse rib, symmetrical to the cross-section of its casing (i) and provided with a gut (2a) facing the work face (3) of its casing (1). ). 3. An extension according to claim 1 or 2, characterized in that the cutting edge (2a) of the divider (2) is symmetrical about its longitudinal plane. 4. The yinline according to claim 1, characterized in that the soil core divider (2) is extensible in its tube guide. 5. The yoke as claimed in claim 1, characterized in that, in its tubular casing (1), the pull-out divider (2) is secured laterally directly to the casing walls (1) with respect to the extruder. 6. A lining according to claim 1, characterized in that at least one of its dividers (2) has protruding ends outside its canvas (1). 7. A device according to claims 1 to 6, characterized in that the protruding ends of the divider (2) are also provided with a cutting edge (2a). 8. The excavator according to claims 1 to 4, characterized in that the divider (2) is a part of a possible embossing crown (7) blocked in its wood-like shell (1) by a second extensible earth core divider (2).