NL1028061C1 - Method for positioning concrete piles as well as piles, columns and formwork suitable for use in this method. - Google Patents

Description

Method for positioning concrete piles as well as piles, columns and formworks suitable for use with this method. The invention relates to a method for positioning concrete piles, wherein on a building site a number of piles at predetermined locations in the soil is driven. According to the state of the art, pile-driving is continued until the pile apparently has sufficient bearing capacity. The parts of the piles projecting above the building site are then shortened to a predetermined height above the building site. This shortening is labor-intensive and it causes a lot of waste. The method according to the invention obviates this drawback and is characterized in that the building site is probed in advance, that a pile is fabricated for each predetermined location with a length determined on the basis of data obtained with the probing and that subsequently each pile at the associated location in the soil is driven. In this way the height of the parts of the piles projecting above the building site can be determined relatively accurately, so that it is no longer necessary to shorten them.

According to the state of the art, the projecting parts of the piles are subsequently treated in such a way that the reinforcement of the piles is partially exposed, so that the reinforcement can be properly incorporated into a foundation to be deposited on the piles. This treatment is also labor intensive and causes a lot of waste. A favorable realization of the inventive method which obviates this drawback is characterized in that the pile is manufactured such that at one end a reinforcement protrudes from the pile or that at one end an opening exists in which after reinforcement an reinforcement can be made. 1028061 2. Excellent armament can be covered with a head during driving. The result is that the foundation can be poured directly onto and around the end of the pile.

5

Because the position of the ends of the piles is now fairly accurately known, it becomes possible to omit the foundation and, instead, the pile as. to support a building construction in this way. A favorable realization of the inventive method with which a very accurate positioning of the end of the pile can be obtained has the feature that a pile is manufactured such that an armament protrudes from the pile at one end, and that after for virtually every pile, an individual formwork is applied around the end for concrete to be driven into. In this way corrections in height and in a horizontal position can easily be made.

20

In prefabricated houses, for example, it may be advantageous to have floor sections rest directly on columns, which columns must be anchored in the ground. A favorable embodiment which enables accurate coupling of a column and a pile is characterized in that a column is placed in the formwork prior to pouring, which column is manufactured in such a way that a reinforcement of the column protrudes from the column at one end and that during the pouring of concrete this end 30 points downwards. Preferably, prior to pouring, reinforcement is placed around the protruding reinforcement of the pile and the column in the formwork.

A favorable realization of the inventive method which enables simple accurate positioning of the column with respect to the pile has the feature that an upper cover of the formwork is slidable relative to a bottom of the formwork has been placed and has an opening through which the column can pass.

Preferably, a locking is provided on or around the column before placing the column, with which the height can be adjusted.

A favorable alternative realization of the inventive method, which can advantageously be used if the piles can be accurately positioned, is characterized in that a pile is manufactured in such a way that at one end there is an opening in which a reinforcement can be made after pile-driving and that after piling for almost every pile a reinforcement is placed in the opening and an already cured concrete head is cast on and around the end. It is sufficient here for a temporary wreath or formwork to be placed under the head.

20

The invention also relates to piles, columns and shutterings, suitable for use in a method according to the invention.

The invention will now be further elucidated with reference to the following figures, wherein:

FIG. 1 schematically represents a floor plan for a prefab house in top view; FIG. 2A represents a pile according to the invention;

FIG. 2B represents the pile during the pile driving;

FIG. 3A represents the pile with a formwork in side view;

FIG. 3B represents the pile with a formwork in top view 35; 1028061 4

FIG. 4 represents the pile with a formwork and a column;

FIG. 5A represents a pile with a central opening in side view; FIG. 5B is a sectional view of the pile with a prefabricated head placed thereon.

FIG. 1 shows as an example of a possible application of the inventive method a floor plan for a prefab house 10 in top view. The floor consists of prefab floor parts la, lb, .. whose corners or edges rest on columns 2a, 2b, ... It is clear that the upper ends of the columns 2a, 2b, .. must be accurately positioned, because they are directly determine the position of floor parts la, lb, .. It is therefore not possible to drive columns 2a, 2b directly into the underlying bottom, because on the one hand it is not known to what depth you can and / or need to drive and because on the other hand the ends of columns 2a, 2b will move pile driving in horizontal direction. According to the invention, a sounding is carried out in advance in the underlying bottom, preferably at those places where the columns 2a, 2b are subsequently driven. Piles are then produced on the basis of the obtained sounding values, such that each pile can be driven almost completely into the soil.

FIG. 2A represents a pile 3 according to the invention, after it has been driven almost completely into the bottom 4.

It is special that the top side is finished such that a reinforcement 5 protrudes from pile 3 in a predetermined pattern. As a result, it is easily possible after pouring to pour a short concrete column onto pile 3, which forms the actual support for floor parts 1a, 1b, .. in FIG. 1. FIG. 2B shows pile 3 during pile-driving, 1028061 in which a steel head 6 is placed on pile 3, internally provided with recesses which can receive the protruding reinforcement 5 and which directly passes the pulse of hammer 7 to pile 3.

5

FIG. 3A shows pile 3 in side view, after a formwork 8 has been placed around the upper end. The height of the formwork can be adjusted in a further obvious way with the aid of a clamping ring 10 which is arranged in advance around pile 3, after which the formwork is filled up. The accurately determined top side of the short column thus obtained then forms a support surface for the floor parts 1a, 1b, .. in FIG. 1. FIG. 3B shows pile pile 3 with the formwork 8 in top view.

Formwork 8 is designed in two halves 8a, 8b, which can be disconnected with the aid of latches 10a, 10b, so that formwork 8 can be easily removed and can therefore be reused.

FIG. 4 shows pile 3 in side view, after a formwork 8 has been placed around the upper end. The height of the formwork can be adjusted in a further obvious way with the aid of a clamping ring 9 which is arranged in advance around pile 3. A cover 11 is placed on formwork 8, provided with an opening through which a prefab column 12 can penetrate into formwork 8. The depth to which column 12 can penetrate can be adjusted by means of a clamping ring 13 which is arranged in advance around column 12. Column 12 is provided on the underside with an excellent reinforcement 14.

Lid 11 can now be placed on formwork 8 and be shifted in such a way that column 12 is exactly in the right place, whereafter formwork 8 can be filled up, for example via a funnel 15. If desired, a basket 16 of reinforcing steel around the protruding reinforcement 5 can, if desired of pile 80 3 and around the protruding reinforcement 14 of column 12 are placed to reinforce the connection.

It goes without saying that the inventive method is not only suitable for supporting floor parts of prefab buildings, but can in fact always be used if a classical foundation is not necessary or undesirable.

FIG. 5A is a side view of a pile 3, in which an opening 17 is provided centrally, which does not require any additional provisions during pile-driving, but which, after pile-driving, can receive reinforcement around which a slightly adjustable head can be arranged.

FIG. 5B is a sectional view of a pile 3 with aperture 17 therein, in which a steel rod 18 is placed which serves as a reinforcement. A prefabricated concrete head 19 is placed around pile 3 and rod 18 and adjusted with the aid of a clamping ring 9, whereby head 19 can be moved both in a horizontal direction and in a vertical direction relative to pile 3 to create small deviations. to compensate during pile-driving. Once head 19 has been set, the space between head 19 and pile 3, as well as opening 20 itself, can be filled with concrete via an aperture 20 in head 19, with the aid of a funnel 15.

1028061

Claims (10)

Method for positioning concrete piles, wherein a number of piles are driven into a ground at 5 predetermined locations on a building site, characterized in that the building site is probed in advance that a pile is fabricated for each predetermined location with a length that is determined on the basis of data obtained with the probing and that each pile is subsequently driven into the soil at the associated location. 2. Method as claimed in claim 1, characterized in that the pile is manufactured in such a way that at one end a reinforcement protrudes from the pile or at one end there is an opening in which after reinforcement an reinforcement can be arranged. 3. Method as claimed in claim 2, characterized in that a pile is manufactured such that a reinforcement of the pile protrudes from the pile at one end, and that after the pile-driving an individual formwork is arranged around the end for virtually every pile. concrete is then poured. 25 4. Method as claimed in claim 3, characterized in that a column is placed in the formwork before pouring, which column is manufactured such that a reinforcement of the column protrudes from the column at one end and that during pouring of concrete end pointing downwards. Method according to claim 4, characterized in that, prior to pouring, reinforcement is placed around the protruding 1028061 reinforcement of the pile and the column in the formwork. 6. Method as claimed in claim 5, characterized in that an upper cover of the formwork is placed slidably with respect to a bottom of the formwork and is provided with an opening through which the column can pass. 7. Method as claimed in claim 2, characterized in that a pile is fabricated such that at one end there is an opening in which after reinforcement an armament can be provided and that after reinforcement for almost every pile a reinforcement is made in the opening. and an already cured concrete head is poured on and around the end. Piles suitable for use in a method according to any one of the preceding claims. 9. Columns suitable for use in a method according to any of claims 4 to 6. 10. Forms, suitable for use in a method according to any of claims 3 to 7. 25 1 0 2 8 0 6 1