NL8004538A - Concrete anchoring foot placement method - using stack of prefabricated slabs fitted over guide bars on metal baseplate - Google Patents

Abstract

The method is used to place in the soil a ballasted concrete foot built up of loose prefabricated blocks to anchor a column, fencing post, flagpole etc. normally needing a poured concrete foundation. After excavation of a hole, a metal baseplate (11) is placed in it, having two or more upright guide bars (2,3). Over these latter there are fitted a series of concrete blocks, pref. flat slabs (6-10), with holes for the bars, a sealing member being then placed on the top of the stack and the assembly compressed by nuts (4,5) screwed onto the bars to form a solid foundation block.

Description

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Jt i METHOD FOR INSTALLING A CONCRETE BASE, SO MANUFACTURED CONCRETE BASE FOUNDATION AND CONCRETE ELEMENTS FOR USE THEREFOR.

The invention relates to a method for pre-laying in the ground a weighted concrete base which is to be used for anchoring upright objects, such as e.g. columns, fencing posts, flagpoles, lamp posts and the like.

As far as relatively small anchors are concerned, use can be made of a concrete base cast to the object, which is completely embedded in the ground. For very much larger objects, e.g.

This is also done for 10 poles for the upper guidance of trains; the transport of such a concrete base can be relatively easy via rail transport. The object of the invention is, however, to provide a solution to all those situations where, for many practical reasons, the choice must be made to pour a concrete foundation into the ground at the location of the object to be set up. After all, if there is a need to do so, a concrete foundation cannot be used immediately.

Apart from that, the preparations take a lot of time and, moreover, if there is a great distance to a certain work to be carried out, one has to provide transport material and workers several times, which increases the costs considerably. When installing fencing with heavily loaded gate structures, a collapsed concrete foundation has hitherto proved necessary.

According to the invention, the drawbacks encountered thereby are eliminated if the anchoring is effected by successively lowering a metal base plate, provided with at least two upright guide rods coupled thereto, after excavating a hole therein, onto which a number of, in particular flat concrete elements, such as standard tiles, with recesses for the guide bars are placed, closed at the top by a closing element, after which 30 nuts are placed on the top end of the guide bars and by tightening them the concrete base built up from the individual elements becomes an integral concrete foundation mass bundled.

According to the invention it is advantageous to make as much use as possible of standard tiles in the method and if use is also made of various dimensions thereof, a concrete base can be formed from top to bottom with a relatively large supporting surface so that in an vertical cross section an isosceles trapezium is created 800 4 5 38 - 2 - * 'Sr whose narrow side is at the top.

Using the insight underlying the invention, the invention also relates to a prefabricated concrete base foundation which is bundled by means of guiding resp.

05 coupling bars which, in conjunction with recesses in the concrete tiles, establish the coupling into an integral concrete mass. This mainly concerns the ease with which with small resources and without heavy hoisting equipment, etc. a yet heavy concrete base foundation can be placed while the constituent elements are still easy to handle for those applying the concrete base.

According to the invention, a favorable embodiment for a concrete base foundation is provided if at least two guiding resp. coupling rods are connected to a base plate on which they are mounted upright by means of a screw, weld, or rivet connection or the like while these rods are threaded at their top end for a connection thereof to the anchoring plate of the object to be attached.

The invention also relates to concrete tile elements which are provided with recesses such that they are suitable for use for a concrete base foundation as described above.

Since, as is known, with very upright objects such as poles, very large moments can easily occur as a result of excessive load (e.g. because people hang or sit on hinged gates or barriers), extra provisions must sometimes be applied. According to the invention this can be compensated for by inserting elongated concrete elements at the composite concrete base. In a special embodiment, these elongated concrete elements can be given the shape of a cross. Tilting of the prefabricated concrete foundation foot as a result of the said additional load is then excluded.

Significant labor, time and thus money savings can be achieved by making use of the advantages according to the invention. This is particularly important when placing fencing post constructions because it is now possible to immediately install the upright 35 objects without waiting for the hardening of poured concrete.

The invention will be explained in more detail below with the aid of the drawing.

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Fig. 1 is a partial view, cross section, of a concrete foundation base according to the invention;

Figures 2, 3 and 4 show various forms of concrete tiles according to the invention; 05 Fig. 5 is a metal base plate on which 4 upright bars are welded;

Fig. 6 shows a concrete foundation base according to the invention in which an additional resistance to tilt is obtained with the aid of elongated concrete elements.

In Figure 1, the object to be anchored in the form of a column base 1 is screwed to the top ends of four long bolts 2 and 3, only two of which are visible in the figure. By means of the nuts 4 and 5, the column base 1 is pressed onto a number of concrete tiles 6, 7, 8, 9, 10 of the same shape but different dimensions. Depending on the requirements to be imposed on the concrete base foundation, the concrete tiles 15 can be square or rectangular. In Fig. 1, the size of the concrete tiles increases in width downwards, so that an almost isosceles trapezium in cross section is created with a wide foot surface. The upright bolts 2 and 3 are welded to a metal base plate 11, such that a considerable tensile force can be exerted on this welded connection in order to be able to offer sufficient resistance to the forces and moments generated by the column base 1. The concrete tiles 6-10 are provided with recesses 12, which leave enough space to accommodate dimensional deviations. The method according to the invention is now as follows: first a hole is dug at the location of the concrete base foundation to be laid in the ground, the circumference of which corresponds to the circumference of the base plate 11, which may be rectangular or square. This base plate 11 is placed upright on the bottom of the excavated hole with the bolts 2, 3 facing upwards. Then the 30 concrete tiles are placed one by one on the base plate 11 and then stacked on top of each other until the height M-M of the ground level is reached. Thereafter, the remaining space of the hole G can be filled and tamped with soil or sand and the column base 1 can be placed with or without the use of adjusting plates (not further indicated here).

In Fig. 2 a simple concrete tile 13 is shown, which is provided with four recesses or openings 14 for the guide or coupling bars 2,3 in Fig. 1. Such tiles can have a size of e.g. 50 x 50 cm and the openings can be 0 4 cm. The single 800 4 5 38 - 4 weight can e.g. 40-45 kg are as desired.

Fig. 3 shows a concrete tile 15, which is provided with a number of differently shaped recesses 16 for the passage of the guide bars 2,3.

05 Fig. 4 shows a concrete tile 17 according to the invention, which is provided with four round recesses 18 and also with two intersecting rectangular recesses 19 and 20. These recesses form receiving spaces for an elongated concrete element 21, which is indicated schematically. By placing two concrete elements 17 inverted on top of each other and receiving a concrete element 21 between them, the latter can be enclosed and thus provide an additional resistance against tilting of the concrete foundation where this is desired.

Fig. 5 shows an embodiment of a base plate 11 as shown in FIG. The upright guide bars 2,2 'and 3,3' in this case are welded to the base plate 11 and are threaded at their top end for the connection to the nuts 4 and 5 in fig. 1. Of course, more connection options between guide bar and base plate are possible. For example, the bottom end can also be threaded and the base plate e.g. locked between two nuts.

The guide rod can also be provided at the bottom with a flat head or the like. The main thing is that the guide bars remain upright after insertion of the base plate in order to let in the individual concrete tiles resp. to facilitate concrete elements. It is also possible to use a larger base plate for large concrete tiles and to attach on top a smaller base plate for smaller concrete tiles in the manner of anchoring the base plate for the column base in Fig. 1.

In short, depending on the desired dimensions for the required concrete base foundation, connections can be made between base plates and concrete elements 30 without changing the essence of the method and / or the necessary tools.

Fig. 6 shows another embodiment of a prefabricated concrete base foundation for which use is made of a cross-shaped position of two concrete elements 21 and 22 which are incorporated in concrete elements 35 23, 23 'and 24, 24' according to the shape shown in Fig. 4 further specified.

While in Fig. 1 the concrete base foundation is in the form of an isosceles trapezoid in cross section, this is not the case in Fig. 6. However, as is obvious, any cross section can be chosen while retaining of all the advantages the invention offers,

Since the mutual coupling of the concrete elements can take place wholly or partly by means of the base plate 11, e.g. only 05 at the top of the foundation, the concrete elements underneath can also be bundled together by other suitable means, e.g. clamping strips as used for packaging purposes. The condition here is that damage to such agents by groundwater and / or mechanical wear cannot occur in order to be able to guarantee the mass unit of the concrete base foundation permanently. The terms "guide and coupling bars" should therefore be interpreted in a broader sense, as should the terms "apertures", respectively. "recesses" to the extent necessary.

In Fig. 6, the column base 25 of a fencing construction 15 as described in the previous patent application no. 80 01 208 of the applicant is indicated. The advantages to be realized with the invention appear to be very favorable for placing concrete base foundations with such fences, also those in which hinged gates are used, especially with a large swing width.

Incidentally, it goes without saying that when using concrete elements 21 and 22 a hole 0 with additional slots for these concrete elements must be dug.

As Fig. 4 shows, concrete elements could also be assembled into a cross shape, either as a prefabricated cross-shaped concrete element, or by coupling two concrete elements each provided with a recess at the location of the crossing, or by connecting two half tiles to one full length. Such versions are not drawn; this explanation is sufficiently clear to the skilled person.

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Claims (12)

1. A method for installing in the ground a weighted concrete base built up from loose prefabricated concrete elements for use as an anchoring system, in particular for anchoring 05 columns, fencing posts, flagpoles, lampposts and the like. standing objects which normally require a concrete foundation system to be poured into the ground, in which a metal base plate, provided with at least two upright guide bars coupled thereto, is successively lowered after excavating a hole, on which a number of, in particular flat concrete elements, such as standard tiles, with recesses for the guide bars, are placed, closed at the top by a sealing element, after which nuts are placed on the top end of the guide bars and by tightening them the concrete base built up from the individual elements is bundled into an integral concrete foundation mass. Method according to claim 1, characterized in that using concrete elements of decreasing dimensions, in particular flat tiles of larger, smaller and smaller size, a concrete base is formed which, in vertical cross-section, is the shape of an isosceles trapezium assumes. 3. Concrete base foundation composed of individually loose concrete elements and bundled together into one coherent whole for use for upright anchored objects, such as columns, fencing posts, flagpoles, lampposts, in the form of a number of substantially flat concrete tiles coupled together into an integral concrete mass, which are mutually coupled by means of guide resp. coupling rods which are passed through holes in these tiles and which press the tiles together under pressure to form a foundation block. Concrete base foundation according to claim 3, characterized in that at least 30 guide and resp. coupling rods are connected to a base plate on which they are mounted upright by means of a screw, weld, or rivet connection or the like while these rods are threaded at their top end for connection thereof to the anchor plate of the object to be attached. 800 45 38 - 7 - 5. Concrete tile elements, provided with a number of recesses for use with guide or coupling rods for a concrete base foundation according to claim 3. Concrete elements, a number of which can be coupled together to form a concrete base foundation base according to claim 3, provided with a number of recesses for the passage of the guide and coupling rods. Concrete base foundation system using the method and using the elements according to any one of the preceding claims, characterized in that the vertical section is substantially rectangular. Concrete base foundation system using the method and using the elements according to any one of the preceding claims 1-6, characterized in that the vertical section is substantially trapezoidal, in particular in the form of an isosceles trapezoid. 9. Concrete foundation system using the method and using the elements according to any one of the preceding claims 1-6, characterized in that an additional resistance against tilting is obtained by inserting elongated concrete elements. Concrete foundation system according to claim 9, characterized in that one or more elongated concrete elements are placed in the form of a cross. Base plate on which at least two upright guide or coupling rods are attached, which are threaded at their top end for anchoring an upright object and for use for a concrete base foundation system according to any one of the preceding claims. 12. Concrete element, provided with at least two holes or recesses for the passage of coupling bars and also provided with at least an elongated recess in the plane of the element, which recess has a height which is less or at most equal to half the thickness of a concrete element according to claim 9 that between two elements which are turned towards each other with their elongated recesses. 8004538