NL8001330A - Floor foundation construction system - casts hardening mass round positioning member at pile head supporting floor sections - Google Patents

Abstract

The system constructs floors, particularly of prefabricated components such as slabs or beams and foundation members consisting of piles etc. A positioning member (4) is placed on the pile (1) previously driven into the ground, and the floor sections (2) are placed on these members. A casting mould (6) is fitted round the pile head, and completely filled with a hardening mass. Before casting, anchor bolts on the floor sections can be suspended inside the mould. The positioning member can have a supporting surface for the floor sections, being in turn supported by a telescopic column inserted in the pile.

Description

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Method for manufacturing a floor construction, the floor construction, and the suitable floor plate.

The invention relates to a method for manufacturing a floor construction mainly consisting of floor elements, for instance plates or beams, on foundation elements such as piles or posts.

The object of the invention is to provide a method with which short set-up and pour times are necessary, so that construction can come "out of the ground" quickly.

The method according to the invention is distinguished by attaching an adjusting member to each foundation element pre-arranged in or on the ground, depositing the floor-1 elements on the adjusting members, ni or before, applying a mold around the head of each foundation element, and molding the mold with a curable mass.

Thanks to the proposed measures, after driving or drilling of the piles, resp. depositing the legs only the aligning member to be aligned on the head of the foundation elements, after which the floor elements can be deposited directly on the adjusting members. These adjusting members provide temporary support, which function is subsequently taken over by the curable mass arranged in the mold 25, which ensures a firm connection between the floor elements and the head of the foundation element. During the casting of the mold, the other casting work for the floor construction can also be carried out directly, so that no "second pour" is necessary.

According to the invention, the connection between floor element and curable mass can be improved by hanging one or more anchors connected to the floor element in the mold beforehand.

35 80 0 1 3 30 -2- i **

The adjusting element according to the invention has a supporting surface for the floor elements, such that one or more floor elements can be laid down on an adjusting element.

Preferably, the support surface is supported by a telescopically designed post which can be arranged in the head of the foundation element. Thanks to the telescopic action, the support surface can be easily raised, making it easier to level the floor.

In order to achieve a simple mold, the adjusting member is preferably provided with a supporting surface which transmits the outer dimension of the foundation element and is additionally provided with a hanging apron. This hat-shaped element then simultaneously serves as part of the mold. This hat-shaped element is preferably made of concrete.

The floor element suitable for the above-mentioned method resp. According to the invention, the floor construction is preferably provided with through holes, so that the mold can be poured through these holes, the holes also serving for piercing the anchors.

Preferably, a floor element designed as a floor plate is provided along the circumference thereof with recesses, in which a ridge of a frost plate can be attached in a simple manner, whereby a closed box-shaped floor construction is created.

The invention will be further elucidated in the figure description below of a number of exemplary embodiments. The accompanying drawing shows; Fig. 1 is a perspective view with some parts of a support broken away, consisting of floor plates on a pile.

fig. 2 shows a perspective view of a variant of the adjusting member.

Fig. 3 shows a third variant of the adjusting member.

Figures 4 and 5 show a perspective view of a support consisting of floor plates on two differently constructed bases.

800 1 3 30 t 't -3-' fig. 6 is a perspective view of laid floor plates with frosted edges arranged along the edge thereof.

7, 8 and 9 show a perspective view of 5 in each case three supports consisting of floor beams on a foundation element.

Figures 1-3 show as a foundation element a pile, which is driven into the ground in a prescribed pattern. This pattern is such that there is in any case a pile under the butt joint between two or more. floorboards. For example, in figures 1 and 3 a pile 1 is drawn under the four corners of adjacent floor plates 2.

Before laying the floor slabs 2, the head of the pile 1 is first knocked away, whereby the reinforcing bars 3 of the pile 1 are released. Subsequently, an adjusting member 4, consisting of a support plate 4 with sleeves 5 welded underneath, is arranged on the reinforcing bars 3 such that the sleeves 5 fall around the bars.

The plates 2 can then be arranged with the corners on the support plate 4. The leveling of the floor plates 2 is a result of the bars 3 being cut to the correct length.

On the underside of the floor plates 2, a formwork 6 is formed around the head of the post 1, after which a curable mass is applied through the holes 7 in the corners of the floor. plates 2 can be poured into the formwork. If necessary, anchors 8 can be inserted through the holes 7 into the space between the formwork 6, so that a firm anchoring of the curable mass with the floor plates 2 and 2 respectively. the pile head 1 30 is established.

The method according to the invention offers the advantage that a deviation between the prescribed grid size and the actually obtained size between the piles 1 may occur, because any deviation is compensated for by the circumference of the pile. large outer dimension '' of the finally obtained support head of the poured mass between the pile 1 and the underside of the floor slabs 2. The deviation of the ~~ 800 1 3 30 -4 -t 4 mm grid size is determined at most by the size of the support plate 4 of the adjusting member.

Fig. 2 shows a deviating adjusting member, which consists of a corresponding support plate 4 with a telescopic post 9 mounted below it, the lower part of which can be cast in the head of the post 1 during its manufacture. Then, in the lower part, a leg welded directly to the support plate 4 is inserted, after which the two parts of the telescopic post 9 are fastened together by each fastening means after the support plate 4 has been leveled with other support plates.

Fig. 3 shows a concrete adjusting member, consisting of a support plate 4, which protrudes outside the. outer circumference of the pile 1. The support plate 4 is provided along the circumference 15 with an apron 10, which temporarily rests on a scaffold layer 11 on the pile 1. The gap on the underside of the space between the apron 10 and the post 1 is closed in a random manner. The curable mass is introduced into the space via the holes 7 in the floor plates 2 and holes 12 in the support plate 4. 20 is cast between the adjusting member and the post 1. Anchors 8 can also be used in this embodiment.

Figures 4 and 5 show a foundation 13 as a foundation element, which can be manufactured on site or in advance. The bases are laid out on the ground according to the grid size.

Rods 14 are placed in the legs 13, on which the support plate 4 of the adjusting member is fixed. A formwork is placed around the head of the legs 13 on the underside of the floor plates 2 to be laid on the supporting plate 4, such that the space between the head of the legs 13 and the underside of floor plates can be filled with a curable mass. This mass is applied through the holes 7 in the floor plates 2. Anchors can also be used here.

The above-mentioned bearing of floor plates 2 on poles 1 or legs 13 lends itself excellently for the application of frost borders along the circumference of the floor plates 2, see figure 6. The frost plates 15 are thereby designed - with an ear 16, which fits into a recess 17 in the edge of the 800 1 3 30 -5- * t floor plate 2. By means of a tension anchor 18 or other suitable fastening means, the frost plates 15 are firmly attached to the floor plate 2, so that ultimately a box-shaped floor construction is created with an under crawl space on the floor. Both floor plate 2 and frost plate 15 can be provided on the inside with an insulating layer 19.

Figures 7, 8 and 9 show bearings for floor elements which are designed as beams to be constructed accordingly.

After the piles 1 have been driven, an adjusting member with support plate 4 is placed on the head of the pile 1, after which the ends of the beams 20 can be laid on the support plate 4. Then the formwork 6 is applied, after which the space in the mold is filled up with a curable mass. Anchoring members 21 can protrude into the space of the formwork 6 on the underside of the beams 20, so that ultimately a firm connection is formed between pile 1 via anchors 21 with beams 20.

Figures 8 and 9 show embodiments in which the beams 20 are made of mutually matching recesses 22 in order to obtain a corner connection between the beams 20. These recesses also have through holes 23 arranged in the beam ends, through which an anchor 24 is inserted, which holes 23 are poured simultaneously with the casting of the formwork 6.

The floor supported on the beams 20 can be finished in the usual manner by means of prefab floor elements, for instance a beam-roll floor.

The invention is not limited to the above described embodiments.

v For example, the foundation element next to the pile shown can also be designed as a bollard. The bases can be cast at work.

35. 800 1 3 30

Claims (9)

Method for manufacturing a floor construction, mainly consisting of prefab floor elements, for instance plates or beams, and foundation elements such as piles or posts, characterized by fastening an adjusting element on each foundation element pre-arranged in or on the ground, depositing the adjusting members of the floor elements, after or before, applying a mold around the head of each foundation element, and pouring the mold with a curable mass. 2. Method according to claim 1, characterized in that one or more anchors connected to the floor element are suspended in the mold before the casting of the mold. Floor construction manufactured according to the method of claim 1 and / or 2. 3 * -6- Floor construction according to claim 3, characterized in that the adjusting member has a supporting surface for the floor elements. Floor construction according to claims 3-4, characterized in that the supporting surface is supported by a telescopic post to be inserted into the foundation element. 6. Floor construction according to claims 3-4, characterized in that the supporting surface transmits the outer dimension of the foundation element, and is provided with a hanging apron along the circumference thereof. Floor construction according to claim 6, characterized in that the supporting surface and the apron are formed by a hat-shaped element of concrete. Floor element suitable for the method according to claim 1 and / or 2, as well as for the floor construction according to claims 3-7, characterized in that through holes for the passage of the curable mass, respectively. the anchors, 35 are arranged. 800 1 3 30.-7- Floor plate as floor element according to claim 8 / characterized in that recesses are provided along the circumference for fixing frost plates. 800 1 3 30