DE19547589A1 - Method of making uncased piling with auger - Google Patents

Abstract

The method involves drilling augers (13) down to the end depth and working and removing ground (1) from surface areas (1a) by an earth breaking and conveying plant (1c). Drillings may also be removed from the preceding auger bore as well as be removed directly from between the auger's screw (1b). This drilled ground (1) is subsequently screened (12) on site into several fractions to sort out oversize or unsuitable material so the fractions can be metered over into a site mixer (4) to produce mortar or concrete after metered addition of water plus self setting binder. The resulting mix is hosed to the auger to fill the drilled hole under pressure down the core hole (8). The auger is pulled back during this, using as binder cement or fly ash or lime or their combinations. Several augers can be drilled in alongside one another at any one time or drilled in at mutual tangents, and the preferred binder is introduced to the mixer as suspension in a defined volume of water, the piles presenting a continuous piling wall on completion.

Description

The patent application describes a method for the production of mortar piles, which in essentially consist of aggregates that are obtained on the construction site.

To improve the load-bearing capacity of the soil and to apply concentrated forces in addition to the known techniques such as in-situ concrete piles and Schlit There are numerous known processes in which the soil in question is added is transformed from binders into a self-hardening building material.

Techniques are known for the production of mortar piles, in which different Agitator blades are attached to boring bars, which are screwed into the ground and a floor mortar by adding cement suspensions from the existing soil manufacture column.

The patent application 42 19 150 describes such a manufacturing process for mortar piles, wel ches is carried out with a continuous auger. The advantage of this procedure is that the floor is not replaced by an expensive, finished concrete from the delivery plant is converted into a hardening building material on the spot.

The known methods which are also known under the term mixed in place are as long as successful if a homogeneous and essentially non-cohesive soil. However, there are pitches in the soil layers or soil layers that are difficult to penetrate, there is a risk that this layer can not be homogenized sufficiently well and mixed with binder, so that a homogeneous mortar mixture is created over the entire length of the pile shaft.

The method according to the invention now has the task, also in soils, which besides predominantly rolling layers have cohesive layers that have economic advantages too enable, which arise from the fact that the upcoming floor for production this mortar piles can be used.

The method according to the invention solves this problem in accordance with the individual method steps of the first claim essentially in the form that similar A continuous worm initially up to the ge desired depth is screwed or screwed into the ground, and deviating from Snail concrete method of the resulting when the filled screw is withdrawn Cavity not with a concrete manufactured by a concrete plant, according to standards is filled, but this cavity is filled with a mortar, which on the Construction site made up of parts of the existing soil with the addition of water and binding is manufactured by means.  

The introduction of this soil mortar is done so that either near-surface soil material 1 a, or soil material that was promoted to the earth surface in the manufacture of other piles, 1 c, or material that comes directly from the screw spirals of the screw conveyor, 1 b, from a soil excavation device such as excavators, caterpillars or similar devices for treating excavated material can be moved to a screening plant installed on the same construction site. This can expediently also be done by additionally switching on a truck. In this screening plant 12 , the excavated material obtained from the existing soil is now separated into one or more fractions 3 . In this sieving process, the unsuitable portions of the soil present for the production of a soil mortar, such as loam and clay, or larger stones are separated out in order to obtain a starting material in known grain sizes for further processing. These so-called aggregates, which were obtained from the existing soil, are fed by weight or volume to a compulsory mixer 4 . In this compulsory mixer, additional mixing water 5 and a binder 6 are added and a mortar 7 is produced from these three essential constituents, which mortar is expediently pumped from a reservoir by means of a pump 9 , a hose line 11 into the core tube 8 of the continuous auger. Similar to the slug concrete method, the slug is pulled back and this mortar 7 is pumped into the ground at the bottom of the slug.

When the endless screw 13 is pulled back, the base 1 b located on its spirals is fed to the sieving circuit in the mortar piles subsequently produced in the procedure already described. Depending on the location of the construction site, the part of the soil conveyed by the auger goes directly to the screening plant, or is mixed with soils from areas close to the earth's surface or from areas where the mortar piles have already been produced, but the soil material conveyed during manufacture is still in the process Area of the pile heads.

In the case of very homogeneous soils, it may also be appropriate that this mortar is not is mixed in batches in a compulsory mixer, but the mixture in one Continuous mixer takes place.

The binders 6 can either be added separately from the water or in the form of a water-binder suspension. As binders are preferably used hy-metallic binders such as cement and lime. Fly ash or combined binders can also be added. A special feature of the process is that the consistency of the floor mortar is adjusted so that it can be pumped over further distances.

The mixed soil mortar dosed at the construction site is introduced during withdrawing the screw while maintaining a slight excess pressure. This excess pressure ensures that the under the retracted screw resulting cavity is completely filled with the mortar.

The decision as to how many fractions the pending soil 1 is separated in the screening plant is dependent on the grain structure and the homogeneity of the pending soil 1 .

The compressive strength of the floor mortar described is preferably in one Range between 5 and 30 N / mm².

The soil present is preferably separated into as few fractions as possible, to simplify the mixing process and the dosage.

The process can be carried out with single continuous screws, but also with several Screws screwed in at the same time. These are more appropriate as arranged tangentially next to each other and are by individual rotary drives or a gear turned. In this way, wall-like elements can be created in the floor will.

Fig. 1 shows a construction site in which a floor mortar is being installed by the method according to the invention. The near-surface bottom 1 a and the bottom 1 c, as it was conveyed by the screw conveyor 13, is conveyed to a screening plant 12 , where it is separated into one or more fractions 3 after being fed into a feed hopper. The unsuitable soil material 10 is discarded. Via a dosing system, the sieved material is metered by weight or volume into a mixer 4 into which mixing water 5 and binder 6 are fed in accordance with previous suitability tests. The resulting floor mortar 7 is conveyed from a storage container by means of a pump 9 and a delivery hose 11 to the continuous auger 13 . Here it emerges at the end of the soul tube 8 under constant pressure.

Claims (6)

1. A process for producing uncased bored piles using one or more continuous screws characterized by the following steps :

• - Drilling one or more continuous screws ( 13 ) to the final depth
• - Dismantling and picking up the existing soil ( 1 ) from near-surface areas ( 1 a) with the aid of an earthwork release and conveying device ( 1 c) and / or drilling material from areas of previous earth drilling with the continuous screw ( 13 ) and / or drilling material directly from the area between the screw spirals ( 1 b).
• - Carrying out a screening of the soil ( 1 a) and / or ( 1 c) and / or ( 1 b) removed from the existing subsoil ( 1 ) and separation of this soil at the construction site into one or more fractions ( 3 ) with the separation of Oversize ( 10 ) or unsuitable materials.
• - Metered addition of the fractions ( 3 ) separated from the existing soil into a mixing plant installed on the construction site and addition of metered amounts of water and self-hardening binder and production of a mortar or concrete ( 7 )
• - Promotion of this mixed mortar or concrete ( 7 ) on the construction site under defined conditions via hose lines to the continuous screw ( 13 ) and filling of this mortar ( 7 ) into the cavity created in the ground when one or more screws ( 13 ) are simultaneously withdrawn via the Soul tube ( 8 ) applying pressure.

2. The method according to claim 1, characterized in that the self-hardening binder consists essentially of cement or fly ash or lime or combinations of these substances. 3. The method according to claim 1 and 2, characterized in that the carrier device simultaneously several, arranged side by side screws turns the floor. 4. The method according to claim 1 to 3, characterized in that the screws screwed in at the same time are arranged tangentially to one another. 5. The method according to claim 1 to 4, characterized in that continuous pile walls are produced with the method. 6. The method according to claim 1 to 5, characterized in that the binder is added as a suspension with a defined proportion of water in the mixer ( 4 ).