BE1015173A5 - METHOD FOR BUILDING A revetment. - Google Patents

Abstract

Method for building a revetment, wherein in each case a pile-shaped space is drilled into the ground and filled with a curing mixture in order to obtain a series of primary piles at a pitch distance from each other, whereafter at least one secondary pile-shaped space is provided between each pair of adjacent primary piles. is drilled into the ground and filled with a curing mixture to obtain a series of secondary piles, the pitch between the primary piles being sealed by at least one secondary pile.

Description

       

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   METHOD FOR BUILDING A BOTTLE
The invention relates to a method for building a revetment, wherein each time a pile-shaped space is drilled into the ground and filled with a curing mixture in order to obtain a series of primary piles at a pitch distance from each other, whereafter between each pair of adjacent primary piles in each case at least one secondary pile-shaped space is drilled into the ground and filled with a curing mixture in order to obtain a secondary series of piles, wherein the pitch between the primary piles is sealed by at least one secondary pile.



   Screw bored piles are often used for the construction of temporary earth-retaining walls, such as a pit for a construction pit. Such techniques are well known. According to a known technique, such a construction is composed of a series of primary piles, which are formed, for example, by drilling a pile-shaped space in which the soil is replaced by concrete. A secondary pile-shaped space is then drilled between each pair of primary piles, which is filled with concrete and in which a reinforcement profile is usually placed. The distance between the primary piles is smaller than the diameter of the secondary pile so that part of the primary piles is drilled away during the drilling of the secondary pile-shaped spaces.

   An anchor can then be fitted that runs to the right or left of the reinforcement, and therefore not through the center of the secondary pole.



   Such a technique has the disadvantage that the asymmetrically arranged anchors do not lead to an ideal spread of the anchor forces. A further disadvantage of this technique is that the primary piles are made of concrete, which entails a lot of soil drainage.

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   It is an object of the invention to provide a method for constructing a borehole piling wherein the reinforcements and the stabilizing members, such as, for example, anchors, can be arranged better.



   To this end, the method according to the invention is distinguished in that after drilling the pile-shaped space for the secondary pile, this space is filled with concrete, and that a reinforcement profile is placed in at least a part of the series of primary piles, and that at least one part of the secondary posts is provided with stability members, such as an anchor or a punch, such that the forces exerted transversely to the secondary posts are passed to the reinforcement profiles.



   By providing the reinforcement in the primary pile and the anchor in the secondary pile, there is no problem with the presence of a reinforcement in the same pile and a better spread of the anchor force is obtained. Because the distance between the centers of two adjacent primary piles is smaller than the diameter of the primary pole plus the diameter of the secondary pole multiplied by the number of secondary poles placed between two adjacent primary poles, the forces exerted on the secondary pile are transferred to the primary pile, and more particularly to the reinforcement present therein. It goes without saying that the dimensions and the strength of the posts, as well as the dimensions and strength of the reinforcement, must be such that these forces are sufficiently passed on to the reinforcement.



   The primary piles can be manufactured as desired by, for example, in-situ mixing or by removing the soil from the drilled pile-shaped spaces and filling this space with concrete.

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   A further object of the invention is to limit soil drainage and the associated costs. To this end, according to a variant of the method according to the invention, the soil at the location of the pile-shaped space for the primary pile is mixed in situ with a binder. This is currently an economically interesting technique for obtaining primary piles. The applicability of this technique and the choice of binder depends, among other things, on the nature of the soil in which the revetment is to be applied and on the desired strength of the revetment.



   According to a further variant, the secondary pile-shaped space is filled with concrete. Concrete gives the necessary strength to the construction and is an advantageous choice for installing the anchors or outriggers in the secondary posts.



   According to another variant of the method according to the invention, at least one yoke is provided against the circumference formed by the primary and secondary piles, onto which the stabilizing members engage.



   In certain cases it may be advantageous for the series of secondary piles to be formed such that the secondary piles touch an outer circumference that substantially coincides with the outside of reinforcement profiles of the primary piles, and that this side of the reinforcement profiles is exposed, after which a yoke is exposed. against this outer circumference formed by the secondary posts and reinforcement profiles. In this way a good transfer of the forces from the anchor to the reinforcement is obtained.



   The invention also relates to a method for at least partially breaking down a sheeting made according to one of the methods described above, wherein the reinforcement profiles of the primary piles are recovered.

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   In particular when the reinforcement profiles are arranged in the in-situ mixed piles, they can be easily removed from these piles, after which they can be reused, for example, in a sheeting to be built later. This saves on the costs of the relatively expensive reinforcements, and does not leave unnecessary, recyclable parts on the site.



   The invention also relates to a sheeting obtained according to one of the variants of the method according to the invention described above.



   According to a preferred embodiment of the present embodiment, the secondary pole has a diameter that is smaller than or equal to that of the primary pole.



   In many cases it is advantageous for the center lines of the series of secondary posts to lie in a plane remote from the center lines of the primary posts, such that the primary and secondary posts are adjacent to the same outer surface.



   The invention further relates to a drilling device for in-situ mixing of the soil with a binder for carrying out one of the methods described above, consisting essentially of a drive shaft with cutting and mixing blades arranged transversely thereto, at the end of which a drilling point is attached, above which drilling point spiral-shaped blades provided with nozzles for the binder are arranged. The drilling device according to the invention is distinguished in that recesses are provided in the spiral blades. These recesses lead to a better mixing of the soil with the binder coming from the nozzles.



   According to the preferred embodiment of the drilling device according to the invention, the pitch of the spiral blades is substantially equal to its diameter. A

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 such a pitch-diameter ratio gives rise to a good mixing of the binder and the soil, so that the pile is made up of a relatively homogeneous material and important quantities such as the compressive strength show little spread through the pile.



   The invention will be further elucidated with reference to the figure description below and the attached drawing, in which:
Figure 1 (A) is a schematic cross-section of a series of primary piles of an embodiment of a sheeting according to the invention;
Figure 1 (B) is a schematic cross-section of an embodiment of a baffle according to the invention;
Figure 2 is a perspective view of an embodiment of the embankment according to the invention;
Figure 3 shows a detail of a front view of an anchor mounted on a secondary pole of an embodiment of the embankment according to the invention;
Figure 4 shows a cross-section according to I-I of Figure 3;
Figure 5 shows a detail of a schematic cross-section of an embodiment of a yoke facing according to the invention;

   
Figure 6 is a perspective view of a drilling device for in-situ blending with a binder or curing mixture, according to the prior art;
Figure 7 shows a detail of a front view of an embodiment of the drilling device for in-situ mixing with a binder or curing mixture according to the invention;
Figure 8 shows a detail of a side view of an embodiment of the drilling device for in-situ mixing with a binder or curing mixture according to the invention.

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   The method according to the invention will be explained with reference to figure 1. In step A a series of 4 primary piles 1 is shown, which piles 1 are at a pitch distance S1 from each other. These piles 1 have been obtained by in each case mixing a pile-shaped space in situ with a curing mixture, whereafter a reinforcement profile 2 is placed in the series of primary piles 1.



   Then, as shown in Figure 1 (B), at least one secondary pile-shaped space is drilled into the ground between each pair of adjacent primary piles 1 and filled with concrete in order to obtain a series of secondary piles 3. The pitch S1 between the primary posts 1 is sealed by a secondary post 3. Two of the three secondary posts 3 shown are provided with an anchor 4, such that the forces exerted transversely to the secondary post 3 are passed to the reinforcement profiles 2 .



   The secondary pole preferably has a diameter D2 that is less than or equal to that of the primary pole D1, and the center lines of the series of secondary poles 3 are preferably in a plane spaced S2 from the center lines of the primary piles 1. In this way, the primary 1 and secondary 2 piles border on the same outer surface.



   A perspective view of the damage thus obtained is shown in Figure 2.



   Figures 3 and 4 illustrate in detail an anchor mounted on a secondary pole. The anchor 4 projects through the secondary post 3 to which the anchor 4 is attached to the secondary post 3 by means of a support plate 5 and a screw 6. Such a construction guarantees a good transfer of the forces exerted on the anchor 4 to the reinforcement profiles 2.



   Figure 5 shows a yoke 7 which is against the circumference 8 formed by the primary 1 and secondary 3 posts.

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 brought. Stabilizing members such as an anchor or a punch can engage on this yoke 7. The series of secondary posts 3 are formed such that the outer circumference 8 to which the secondary posts 3 touch substantially coincides with the outer side 9 of the reinforcement profiles 2. This side 9 of the reinforcement profiles 2 is exposed, and the yoke 7 supports in the exemplary embodiment of figure 5 directly against these sides 9 of the reinforcement profiles 2.



   Figure 6 shows a known device for the in-situ mixing of a pile-shaped space. The shaft 14 of the drilling unit is moved down the shaft 16 during drilling and then moved back up.



   Figures 7 and 8 show details of the drilling device that can be used, for example, to obtain the primary piles 1 of the exemplary embodiment of Figure 1. For this purpose, the drilling device must be placed at the height of the pile-shaped space to be drilled, after which drilling is carried out in combination with the spraying of binder to the desired depth, which may be, for example, 18 meters. The drill is then returned to the top while further mixing the soil with the binder.



   The drilling device shown in Figures 7 and 8 for drilling with in situ mixing of the soil with a binder consists essentially of a drive shaft 14 with cutting and mixing blades 15 disposed transversely thereto. A drill tip 10 is attached to the end of the shaft 14. above which spiral blades 12 provided with nozzles 11 for the binder are arranged. Recesses 13 are provided in the spiral blades 12. These recesses 13 ensure a good mixing of the soil with the binder coming from the nozzles 11.



   With such a construction, the pitch S3 of the spiral blades 12 is preferably approximately equal to

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 its diameter D3. Such a ratio of S3 / D3 guarantees a good mixing of the binder and the soil, so that the pile is made up of a relatively homogeneous material.



   The embodiments of the invention described above are to be considered as examples and the scope of the invention is limited only by the following claims.


    

Claims (10)

 CONCLUSIONS A method for building a revetment, wherein in each case a pile-shaped space is drilled into the ground and filled with a curing mixture in order to obtain a series of primary piles at a pitch distance from each other, after which at least one secondary pile-shaped space is drilled into the ground and filled with a curing mixture in order to obtain a series of secondary piles, the pitch between the primary piles being sealed by at least one secondary pile, characterized in that after drilling the pile shapes some space for the secondary pile, this space is filled with concrete, and that a reinforcement profile is placed in at least a part of the series of primary piles, and that at least a part of the secondary piles is provided with stability members,  such as an anchor or a punch, such that the forces exerted transversely to the secondary post are passed to the reinforcement profiles.  Method according to claim 1, characterized in that when drilling the pile-shaped space for the primary pile, the soil is mixed in situ with a binder.  A method according to any one of the preceding claims, characterized in that at least one yoke is provided against the circumference formed by the primary and secondary posts, onto which the stabilizing members engage.  Method according to claim 3, characterized in that the series of secondary posts are formed such that the secondary posts touch an outer circumference that substantially coincides with the outside of reinforcement profiles of the primary posts, and that this side of the reinforcement profiles is exposed after which a yoke against this by the second  <Desc / Clms Page number 10>  external poles and reinforcement profiles formed.  5. Method for at least partially breaking down a sheeting produced according to the method of any one of the preceding claims, characterized in that the reinforcement profiles of the primary piles are reclaimed.  6. Covering obtained according to the method of any one of the preceding claims.  7. Fitting according to claim 6, characterized in that the secondary pile has a diameter that is smaller or equal to that of the primary pile.  8. A revetment according to any one of claims 6-7, characterized in that the center lines of the series of secondary posts lie in a plane that is at a distance from the center lines of the primary posts.  Drilling device for mixing the soil in situ with a binder for carrying out the method according to one of the preceding claims, consisting essentially of a drive shaft with cutting and mixing blades placed substantially transversely thereto, at the end of which a drilling point is fixed above which drill point spiral blades provided with nozzles for the binder are arranged, characterized in that recesses are provided in the spiral blades.  10. Drilling device as claimed in claim 9, characterized in that the pitch of the spiral blades is substantially equal to its diameter.