NO834328L - PROCEDURE AND APPARATUS FOR ASSEMBLY OF POSTS OR FOUNDATION - Google Patents

Description

Procedure and device for mounting the post

or column foundation.

The present invention relates to a method

and a device for mounting a pole or a pole foundation. More particularly, it primarily applies to such a procedure, where the post can be driven down into natural ground as well as compacted fillings consisting of clay, moraine, gravel, sand, asphalted and slab-covered surfaces and the like, but the invention also includes the possibility of mounting the post in a holes taken in rock or other hard material. In this context, a post is considered to mean all conceivable types of posts such as picket posts, fence posts, indication posts for water, electricity, drainage, etc. posts for traffic signs and road markings, parking meters, paper baskets, fixed benches, electrical cabinets, etc. A special area for the invention is assembly of a smaller post, which constitutes a mount for a larger post,

e.g. a traffic sign, a traffic sign or similar.

When installing posts in fields with soil types consisting of

end, for example, of clay, moraine, gravel or sand or other relatively hard ground, it has previously been used in many cases to drill a hole and drive the post into this hole with the help of a sledgehammer or another heavy object. The lowering of a post in this way constitutes a heavy and troublesome

similar work, especially with high posts, as you may have to carry a ladder or similar means to reach up to knock down the post. A post knocked down in such a way can also quite easily twist around its longitudinal axis and is therefore not favorable as a marking post or as a foundation for an instruction sign or the like. It can also easily come loose or break in the ground.

To anchor the post more securely in the ground so that it cannot twist, loosen or bend in the ground, it has been used to dig a pit and fill it with concrete and push the post into the soft concrete. This also constitutes time-consuming and heavy work, and when installing the post, you must include

carry tools, concrete etc. Usually you have to prop up the post until the concrete has hardened. In this case, too, there may be a risk of the entire concrete block with the post loosening in the ground due to mechanical influence, in the case of tele solution, etc., as for practical reasons one does not use to dig the pit for the post so deep that it lies below the tele boundary, and as the concrete block forms a rather large surface for the influence of tele.

Another common way to anchor the post consists

in that you dig a hole in which you place a concrete foundation into which you drive the post down. In order for the post to become stable, it is required that the surface of the foundation is coated with, for example,

show asphalt, as it is normally difficult to compact the backfill materials around the foundation.

When installing posts in rock, a hole is drilled in the rock, and the post is pushed down into this hole and secured against twisting by means of wedges or by filling the borehole before or possibly after lowering the post into the hole with a mass such as concrete, sulphur, glue, plastic or similar.

In this case too, the post must be supported for a certain time, and

when installing a post, you must also bring a number of different tools and a form of mass to secure the post against twisting and against unwanted pulling from the borehole.

The present invention aims to solve the problems of the previously known methods for mounting poles and to provide a method and a device for mounting poles primarily in natural ground and compacted fillings consisting of clay, moraine, gravel, sand, asphalted ground etc. but also in hard surfaces such as rock and concrete etc.

According to the invention, the post is formed at its lower end with one or more outwardly directed wings, and on the post a hole-provided separate hammer of a suitable shape and of suitable weight is attached, with the post running through the hole in the hammer and with the hammer resting against the upper edge of the post's wing or wings, after which the hammer is lifted and released until the post is driven down to the desired depth in the ground. The depth should be so great that the wings are completely buried in the ground. In the final phase of the lowering, the hammer packs the ground or soil around the post and possibly also above the wings. After detaching the hammer, the post can be used directly, but according to the invention, a coarser and higher post can be pushed down over the post driven into the ground and secured against twisting and pulling.

According to the invention, a device for carrying out the described procedure consists of a post, which at its lower end is provided with one or more outwardly directed wings, preferably triangular wings with the tip pointing downwards, and a hammer with a single through hole that is slightly larger than the diameter of the post, and where the hammer is made with an axial groove, which extends through the cylinder wall, and which is as wide as or slightly wider than the diameter of the post, so that the hammer can be attached to the post by simply pushing it radially sideways, so that the post enters the central axial hole of the hammer. Alternatively, the hammer can be designed as two half-cylinders, which are connected by hinges to each other and can be locked against each other in a combined position, and where the hammer is provided with two or more lifting handles. The hammer has a size and weight suitable for the purpose, and in normal cases a weight of approx. 10-30 kg be beneficial. At least at its lower end, the hammer has an impact surface of a certain minimum dimension, so that the hammer can be struck against the upper edge of the wings without cutting into the wings when the post is driven into the ground. For stable mounting of a coarser and higher outer post on the post driven into the ground, the wings at their upper edge and up to the periphery of the post are designed with undercut grooves that form a circumscribed circle with a diameter equal to or slightly larger than the diameter of the coarser and longer post to be be mounted. To stabilize the coarser and longer outer post, the inner post or foundation post can be provided with one or more rings of an elastic material such as rubber or plastic, which keep the outer post secured and centered on the foundation post. It is also possible to design the grooves in the upper and inner edges of the wings as bayonet-like grooves, and to design the outer post with corresponding bayonet hooks for engagement in these bayonet grooves by twisting the outer post in its lowered position in relation to the support post.

The invention will now be described in more detail with regard to a preferred embodiment of the method and device

and in accordance with the attached drawings.

In the drawings, Figure 1 shows an embodiment of a device according to the invention for mounting a pole in the field. Figure 2 shows the hammer belonging to the device in Figure 1 in the open position. Figure 3 shows an alternative embodiment of the hammer. Figure 4 shows a modified embodiment of the inner post in the device, which can be used in combination with a partially shown outer post. Figure 5 shows a further embodiment of a post according to the invention, and Figure 6 shows a post arrangement according to the invention with an inner support post, on which an outer traffic marking post is mounted. The device shown in Figure 1 usually consists of a foundation post 1 and a hammer 2 for driving the foundation post into the ground. The foundation post 1 consists of a tube or a rod 3, which can be pointed or plate-equipped at its lower end 4, and at a place a short distance above the plate-equipped end 4

is provided with a number of protruding wings 5. In the case shown, the number of wings is three pieces, which is a suitable number partly to prevent a twisting of the post around its vertical axis when the post is driven into the ground, partly also to prevent the post bucks in any direction. Optionally, the post can be designed with just two wings, which can then be mounted at a certain angle to each other, e.g. an angle of between 30° and 150 . However, the number of wings can be greater or less than three depending on the desired effect. In some cases, it may be desirable for the post to yield under a certain impact, e.g. impact, and in such cases the post can be provided with only one wing or two wings arranged in a straight line with each other, and how the post is positioned with the wings in the direction of the conceivable impact. The wings, which are triangular with the tip 6 facing downwards, are welded to the foundation pipe 3 radially protruding from it.

In certain cases, e.g. in the case of posts intended for installation in drilled holes in hard substrates such as rock or concrete, it may be advantageous to mount the wings at an angle to the radius, so that the wings have a tendency to curve and roll around the post when driven into the hole. The wings are advantageously designed with a horizontal upper edge 7, so that the hammer 2 has the largest possible impact surface against the wings. To increase the contact surface between the hammer and the wings, the wings can be designed with a thickened edge or by the wings being designed with an upper surface bent at a right angle as indicated by one of the wings in figure 1. It is also possible to weld on a piece of material up to the upper edge on one or both sides of the wing.

Normally, after lowering, the post is locked with sufficient strength against pulling up from the ground, but if: you want to increase this pull-up protection further, one or more of the wings can be designed at a place along its slanted outer edge with a barb 8, which is formed by an angle slot is taken up in the wing and that the slotted part is bent out somewhat from the plane of the wing as indicated on one of the wings in Figure 1.

The foundation post 1 can be used separately, e.g. as

post for picket fence, fence seal, holder for paper baskets and parking meters etc. or as holders for small marking signs, e.g. for marking underground water and drainage devices or electrical devices. In many cases, however, a post is needed that is thicker or taller than the foundation post, or conversely it can be considered advantageous to use a relatively weak foundation post as a supporting structure for a stronger outer post. In this case, the wings 5 are advantageously designed with their upper edge until the pipe traps the rod 3 with cutouts 9 of a depth sufficient to form holders for an outer post and of a width forming a circumscribed circle equal to or slightly greater than the circumference or width on the outer tube. In order to obtain a secure fixing of the outer post in relation to the inner post, the cut-out grooves in the wings can be designed as bayonet-like grooves as shown with the digits 9a in Figure 4, and whereby the outer post is designed with wedge-shaped protrusions 9b arranged to grip locking into the bayonet slots 9a by a mutual twisting of the posts.

In this context, it should be pointed out that the foundation post and/or the outer post do not necessarily have to be circular as shown in the figures, but that one or both may just as well have a square or any other cross-sectional shape in order to produce or enable special effects.

The holder 2, which is shown in figures 1 and 2, consists of two half-cylinders 10 and 11, which are articulated with each other by means of hinges 12. Diametrically to the hinges, each half is designed with cooperating means for locking the hammer 2 in the folded position, e.g. locking hooks 13 and 14 arranged to cooperate with a removable splint 15. The hammer is suitably designed with such a length that it can be easily controlled on the foundation post when lifting and lowering, and at least at its lower edge it should be designed with such thickness that it provides a sufficiently large contact surface against the upper edge of the wings 5 so that the wings are not damaged when the post is driven down into the ground or into the rock or concrete hole. For tall hammers, there should be two locking devices, one at the top and one at the bottom. For lifting the hammer, it is provided with two pieces of lifting handle 16. The hammer is made with a weight suitable for handling by one or possibly two people, e.g. a weight of 10-30 kg, the weight of which is fully sufficient for driving down the post both on hard ground and on asphalted or slab-covered surfaces.

The hammer can also be arranged for connection to

a mechanical means for influencing the hammer, e.g. a hydraulic or pneumatic vibrating rock drill, and for that purpose the upper part of the hammer may be designed with a drill neck for connection to the drill. High-frequency impact vibrations from rock drills can drive the support post into the ground just as well as the low-frequency impacts achieved by manual handling of the hammer.

To increase the hammer's 2 contact surface against the post wings, the lower edge of the hammer can be extended, e.g. by a ring of suitable material being welded to the outside of the hammer as indicated by the dashed lines in figure 1. At the same time or alternatively, as mentioned earlier, the wings can be designed with an extended upper surface. In the case of short posts, the hammer can consist of a closed ring cylinder, which is mounted on the post by threading it on from above, and which is lifted away from the post upwards when the post has been driven down to the desired depth in the ground. Alternatively, the hammer can be designed with an axial groove that extends through the entire cylinder wall as shown in Figure 3. The groove must be at least as wide as the post tube, and the hammer is mounted by pushing it sideways over the post tube. After the post has been driven down to the desired depth in the ground, the hammer is removed in the opposite way.

When using the described device in natural soil or compacted fill consisting of clay, moraine, gravel or sand, or on asphalted or slab-covered surfaces, proceed as follows. After marking the place where the post is to be driven down, the foundation post 1 is placed with its lower end or tip 4 towards the ground, the hammer 2 is mounted in the open position shown in figure 2 on the post 1

and is closed and secured with the cotter pins 15 in the locking hooks 13,14, after which the hammer is repeatedly lifted a certain distance, e.g. 4-6 decimetres, and is released so that", it hits the upper side of the wings. If the pole should hit a stone or other hard object during its descent into the ground, it will act on its own from the stone and continue down into the ground next to the stone . The wings then act as stabilizers, so that the post is held vertically. When the post is driven down so that the wings with their upper edge are placed in or a few decimetres below the ground level, the post is fully driven down, and the ground around the post has at the same time been severely compressed by the hammer with its lower edge packs the ground at the same time as the post is driven down.

About man. would like to pack the field above and to the side

of the wings further, soil, gravel or sand is filled over the indentation in the ground formed by the hammer, and the hammer is lifted and released a few more times, possibly with additional filling of soil, gravel or sand, whereby the ground is packed hard both on the side of and above the wings.

When the foundation post has been driven into the ground, the outer post can be pushed on from above. The outer post 17, which is shown in the initial position in Figure 4 and in the fully assembled position on

figure 6, is secured in the cutouts 9 in the upper edge of the wings so that it stands steady. In the event that the outer post 17 has a significantly larger inner dimension than the outer dimension of the foundation post 1, or if you want to avoid direct metallic contact between the pipe parts, one or more rings 18 of rubber or other elastic material are mounted on the foundation post 1 before the outer post 17 is pushed on. The rubber rings mean that the post cannot be twisted around the foundation. The friction between the outer and inner post also means that a relatively large force is required to pull off the outer post. If you want the outer post completely firmly anchored, the upper rubber ring is sealed according to the figures with a conical ring of steel or plastic which locks the ring and thus the outer post if the outer post should start to move upwards. On the outer post, boards, signs, traffic lights or any other device can be mounted in the usual way in a manner known per se, as shown in figure 6.

To prevent the outer post from twisting on the foundation post, the inner post wings and the outer post can be provided with bayonet-like members 9a and 9b as shown in figure 4, or the outer post can be slotted somewhat at the bottom edge, so that the outer post's slots lock the post against the wings, or a mechanical locking device can so that a locking screw is fitted between the outer post and the foundation post.

As mentioned, the foundation post is secured quickly and easily

in the field at the same time as the ground around the post is compacted strongly. This effectively prevents the post from twisting or buckling in any direction and also from being accidentally pulled or pushed up from the ground. Due to the post's small transverse impact surface, it resists to a high degree up to telehive. If you want to increase safety against accidental pushing or lifting, the post is designed, as mentioned earlier, with one or more barbs 8, which do not significantly prevent the post from being driven down, but on the other hand constitute a strong obstacle against the post being pulled up.

When installing the post on asphalted streets, roads or pavements, proceed in the same way as when installing in the ground. As the foundation post, according to the embodiment in Figure 1, is pointed or plate-coated at the lower end 4, it can easily penetrate even thick asphalt

layer by impact of the hammer, and the post is driven down through the asphalt with such minor damage to the asphalt that it normally does not even need to be repaired.

If the post is to be used in places where the surface is provided with square concrete slabs, for example by walkways and squares, the wings can be fixed in such a way that they follow the pattern/joints in the slab setting. This means that when using a foundation for wastebaskets, bicycle racks, temporary or permanent closures with railings in attached buildings, etc. no need to make more interventions than with a chisel to knock away a corner on a concrete slab and then knock down the post/foundation.

When driving the foundation post into a hole in rock or concrete, it is ensured that the hole is somewhat wider than the post, and the wings 5 are attached appropriately at an angle deviating from the radius to the pipe or rod 3. The driving takes place in the same way as when driving into the ground. During the drive down, the wings bend as the post is driven deeper into the hole, and the wings 5 will more or less wrap around the pipe 3

and thereby form a wedge connection between the pipe 3 and the hole in the rock or concrete, which prevents both twisting and buckling as well as pulling up from the hole.

To facilitate the lowering of a post in that case

that the post hits a stone or another hard object, the lower part 19 of the triangular wings can be arranged free from the post, so that these lower parts can bend off to one side and in a way guide the wing and thus the whole post past the hard the object in the field the hard object in the field.

According to another embodiment of the invention, which is shown in Figure 5, the wings 5 are mounted at an angle to the axial direction of the post or in a screw shape, so that the post is screwed into the ground. Thereby, the post is also automatically secured against being pulled up from the ground.

According to yet another embodiment of the invention, the lower part of the hammer is slotted in the axial direction, as indicated by the dashed lines in Figure 3, corresponding to the location of the wings 5. These axial slots form a guide for the hammer when the post is driven down into the ground. The slots have a suitable length, so that the hammer is controlled during its entire movement by interaction between the slots and the wings. By impacting the hammer with the help of a machine, e.g. a rock drilling machine, the slots can be designed shorter, but still constitute a valuable guide for the hammer and thus the impact machine.

It is understood that the above description and the embodiments of the invention shown in the drawings only constitute illustrative examples, and that a number of different modifications may occur within the scope of the concluding patent claims.

Claims (15)

1. Procedure for installing a post or a post foundation in natural ground and compacted fillings consisting of clay, gravel or sand, or on asphalted or slab-covered surfaces or in holes in rock or concrete, characterized in that a foundation post (3) at its lower end (4) is provided with one or more projecting wings (5), and a hole-provided sep-, arate hammer (2) is attached to the foundation post with the post (3) running through the hole of the hammer (2) and with the hammer resting against the upper edge of the post's wing or wings (5), after which the hammer (2) is repeatedly bumped or lifted and dropped against the wings (5) until the post is driven down to the desired depth in the field or hole, and the hammer (2) is released from the post (3), and in case, the post (3) is supplied with or connected to the main body for which the post is mounted. 2. Method in accordance with patent claim 1, characterized in that the pole (3) is driven down into the ground with the help of the hammer (2) so far that the wing or wings (5) with its upper edge is displaced preferably one piece below the ground level, whereby the hammer in the last driving-down step, at the same time, the ground packs hard around the post (3) and its wings (5) and preferably also above the wings. 3. Method in accordance with patent claim 1 or 2, characterized in that the upper edge (7) of the wing or wings (5) is extended to increase the contact surface for the hammer (2) against the wings (5), and that the wings (5) is provided with means, e.g. bent barbs (8) to prevent the post from being pulled up after being driven into the ground. 4. Method in accordance with patent claim 1, 2, or 3, characterized in that an outer post (17) is mounted on the post (3) which has been driven into the ground or into the hole in the rock or concrete, whereby the wings (5) at their upper edge (7) and until the post tube or rod (3) is provided with a downward groove, which outlines a surface corresponding to the outer surface of the outer post (17), and that the outer post (17) is pushed down from above over the foundation post (3) so that it is enclosed with the lower part of the grooves (9) in the wings (5). 5. Procedure in accordance with patent claim 4, characterized by the fact that the wing grooves (9b) are bayonet-like, and that the outer post (17) has hooks (9b) for locking interaction with the bayonet grooves (9a) to provide secure locking when the outer post (17) is turned in relation to the inner post ( 1). 6. Method in accordance with patent claim 4 or 5, characterized in that one or more rings (18) of plastic or elastic material are attached to the foundation post (3) before the outer post (17) is pushed down over the foundation post. 7. Method in accordance with any of the preceding patent claims, characterized in that the lower part (19) of the wings is free from the support post (3) in order to be able to deflect in one of the directions when hitting a stone or some other object in the field and/ or that the wings are mounted at an angle to the support post or in a screw shape, whereby the post is driven into the ground in at least a partial screw shape. 8. Device for carrying out the procedure in accordance with any of the preceding patent claims when driving down a post or a post foundation both in natural ground and compacted fillings consisting of clay, moraine, gravel, sand or on asphalted or slab-covered surfaces or in holes in rock or concrete and consisting of a foundation post (1), which at its lower end (4) is provided with one or more protruding wings (5), characterized in that the device comprises a separate, hole-provided hammer (2) arranged to be able to be attached to the post (3) with the post running when the post is driven down through the hole and with the hammer resting on the upper edge (7) of the wing or wings (5), and where the hammer is formed of two cylindrical halves (10,11) which are connected to each other by hinges (12) and can be locked against each other (13) -15), or the hammer is designed with an axial groove, which extends through the entire cylinder wall to enable the hammer to be attached to the post by lateral displacement, and whereby the wings are preferably designed with horizontal upper edges (7) to give the hammer the best possible contact surface. 9. Device in accordance with patent claim 8, characterized in that an outer post (17) is mounted on the foundation post (1), whereby the wings (5) at their upper edge (7) and up to the foundation post tube (3) are lined with grooves (9), which circumscribes a surface corresponding to or slightly larger than the circumference of the outer post (17), and whereby the outer post is provided with or attached to the main body, e.g. picket fence, fence, signs, boards, etc., for which purpose the post is mounted. 10. Device in accordance with patent claim 8 or 9, characterized in that the wings (5) are triangular with the tip (6) directed downwards, and in that one or more of the wings (5) at their slanted outer edges are provided with slits and from the wings (5) flat bent barbs (8) with the tip pointing downwards to prevent accidental pulling of the foundation post (1) from the ground. 11. Device in accordance with patent claim 9 or 10, characterized in that the device contains means (18,9a,9b) for securely fixing the outer post (17) on the inner post (1) in a fully assembled state. 12. Device in accordance with patent claim 8, characterized in that the hammer (2) is designed with an extended part in the lower edge to increase the contact surface of the hammer against the upper edge of the wings (5) and/or that the wings (5) are designed in their upper edge with a enlarged surface. 13. Device in accordance with any of the patent claims 8-12, characterized in that the wings (5) for a post intended to be driven into the ground are directed radially outwards, while the wings (5) for a post intended to be driven into the ground are directed radially outwards, while the wings (59) for a post intended to be driven into a hole in rock or concrete are directed at an angle with the radd. 14. Device in accordance with any of the patent claims 8-13, characterized in that the wings are mounted in screw form. 15. Device in accordance with any of the patent claims 8-14, characterized in that a downwardly located part (19) of the wing or wings (5) is free from the post (3) so that it can bend off to one of the sides about it hits a rock or other hard object when driving down into the ground.