FI126402B - The foundation of Tolpa - Google Patents

Description

The present invention relates to a pillar foundation according to the preamble of claim 1.

The problem with the known column foundations, which are welded sleeves with tubular bodies, is that they fall too deep over time when subjected to a load, especially in gravel or soft ground. Another problem with known foundations is their low lateral load duration, which can cause the foundation to rotate from a vertical position to a horizontal position.

The sinking of the foundation too deep is mainly due to the fact that the foundation is designed to sink into the ground as easily as possible during installation. However, nothing prevents the foundation of the post from sinking deeper after installation. This can cause the foundation to sink too deep over time. Turning the foundation from a vertical position to a horizontal position requires reinstallation of the foundation.

The object of the invention is to eliminate these drawbacks and to provide a foundation for the post, which will be prevented from sinking and turning after installation, so that the lifetime of the foundation will be multiplied compared to a conventional foundation. This object can be achieved in accordance with the invention by making a tubular foundation with wings attached to the underside. The wings are mounted so that the wings are in an upright position against the side of the frame during installation. A wedge and locking piece attached to the bar is installed inside the frame, which keeps the wings locked in an upright position against the base frame during the initial installation.

An end sleeve is mounted on the end of the frame tube through which the rod fixed in the wedge and locking piece passes. The rest of the bar is turned smaller than the bar itself and is also threaded. The size of the hole in the end sleeve is such that the threaded end of the bar fits through it, but not the actual bar. The bottom of the end sleeve has a recess which is larger in diameter than the diameter of the rod. The rod passes through the end sleeve until the shoulder at the end of the threaded portion of the rod catches the end sleeve to the bottom of the recess. The threaded portion of the rod passes through the end sleeve, and a nut is mounted in the threaded area above the end sleeve to secure the rod to the end sleeve. The lower end of the round end sleeve has a smaller diameter than the inside diameter of the body tube, so that the lower end of the end sleeve fits inside the body tube. The top of the end sleeve, on the other hand, is larger in diameter than the inside diameter of the frame tube, so it cannot fit into the frame tube. In this way, the end sleeve is mounted at the end of the frame tube so that the end sleeve is partially inside the frame tube. The top of the end sleeve has a recess which holds the nut and thus protects. Both the end sleeve and the rod have a straight groove with a keyway. The wedge prevents the rod and end sleeve from rotating relative to each other, thereby allowing the nut to be tightened and loosened.

The locking and wedge catches the wings on the wings and prevents the rod from moving up, while the end sleeve and nut prevent the rod from moving down. This achieves locking of the wings. The wings are locked as long as the nut at the end of the bar is in place. Removing the nut will release the end sleeve from the rod and can be removed.

For the second stage of installation, the end sleeve has been replaced with a punch sleeve with a recess deeper than the length of the threaded portion of the shaft. The recess has a diameter larger than the diameter of the threaded portion of the shaft, but smaller than the main diameter of the shaft. This allows the threaded portion of the bar to fit into the stroke recess so that the shoulder at the end of the threaded portion of the bar engages the bottom of the barrel. By striking the punch, the rod is pressed down so that the transmission takes place at the shoulder at the end of the threaded portion of the rod, thereby not damaging the threads at the end of the rod. By striking the barrel, the wedge and locking piece are also pressed down, whereby the wings are locked and the wedge pushes the wings open.

The lower part of the round stroke is smaller in diameter than the inside diameter of the body tube and thus fits inside the body tube. On the other hand, the upper end of the punch is larger in diameter than the inside diameter of the body tube, so that the lower part of the punch can only fit inside this body, after which a wider portion of the punch engages the end of the body. As the wider portion of the punch stroke engages the end of the frame tube, the force is transferred to the foundation frame and the entire foundation is pressed deeper into the ground as the punch stroke. The ground guides the wings fully open as the foundation sinks deeper into the ground.

When the wings reach a horizontal position, their stiffeners engage the foundation frame and prevent the wings from opening any further. Horizontal wings form a large surface that prevents the foundation from sinking into the ground, thus preventing the foundation from sinking deeper.

After installation, the punch sleeve and the rod-wedge-lock block combination can be removed and used for the next foundation installation. More specifically, the pillar foundation of the invention is characterized by what is stated in the characterizing part of claim 1.

The invention will now be described in detail. In the description, reference is made to the accompanying drawings, in which Figure 1 illustrates a post base according to the invention before or after installation, Figure 2 shows a cross-sectional view of a base post according to the invention during the first stage of installation 4 is a partial cross-sectional view of a pillar foundation according to the invention during the final stage of installation.

Figure 1 shows, by way of example, a foundation post according to the invention before or after installation. In this case, the image is used to illustrate the foundation of the post before installation. The frame of the post base is formed by a steel pipe 1, to which are fixed welded guides 2 by welds 3. In the exemplary case, the pipe 1 has an outer diameter of 114.3 mm and a wall thickness of 5 mm. The length of the frame pipe 1 depends on the desired installation depth, in the example case the length of the frame pipe 1 is 900 mm. The shape of the fixed guides 2 also depends on the ground composition of the installation site. In the exemplary case, the fixed guides 2 are made of 5 mm sheet steel and have a tip length of 300 mm, a tip width of 136 mm, a guide section width of 63 mm and a total length of 1000 mm.

In the exemplary case, there are four fixed guides 2 which are welded around the main tube 1 at 90 degrees by welds 3 and form a tip at the lower end of the foundation of the post. The end portions of the fixed guides 2 are welded together by welding 4. The lower end of the frame tube 1 is plugged, for example, a 4 mm steel plate 106 mm in diameter is welded to the lower end of the frame tube 1. two pieces for each blade and are welded to the height at which the blade is to be horizontal, that is, after installation of the pillar foundation. The wing stiffener 9 is an integral part of the wing locking mechanism and further functions as a wing attachment and a limiter of the wing movement. The wing stiffener 9 has a hook-shaped projection that allows the wing to be locked in a vertical position during the initial installation.

Prior to the installation of the column foundation, the wedge and locking piece 14 is attached to the barrel 15, which is attached to the bar 15. In the example case, the round bar and locking bar 14 is turned from one steel piece and welded to the bar 15 by welding 16. In the example case the bar is steel.

A circular end sleeve 17 is provided at the end of the body tube 1 with a hole through which the threaded portion of the rod 15 fits. The threaded portion of the rod 15 is passed through the end sleeve 17 until the shoulder at the end of the threaded portion of the rod 15 receives the end sleeve 17 to the bottom of the recess. The rod 15 is locked to the end sleeve 17 by a locking nut 18. In the exemplary case, the end sleeve 17 is turned from a single piece of steel, having a narrower section of 100 mm diameter and a wider section of 120 mm. Both the end sleeve 17 and the rod 15 have a straight groove that fits in the wedge 19. The wedge 19 locks the rod 15 and the end sleeve 18 relative to each other so that the nut 18 can be tightened and loosened. The upper part of the sleeve 18 has a recess which accommodates the nut 18. This allows the nut 18 to be protected when the end sleeve 17 is struck during the foundation installation.

Fig. 2 shows, by way of example, a cross-sectional view of a pillar foundation according to the invention in the first stage of installation. The wedge and locking piece 14 locks the wings in an upright position during the initial installation. An end sleeve 17 is mounted on the end of the frame tube 1, through which a rod 15 attached to the wedge and locking piece passes. The rod 15 and the wedge and locking piece 14 attached thereto are locked immobile with respect to the end sleeve by the nut 18 and the wedge 19. The locking and wedge piece 14 engages the blade hooks and thus prevents the wings from opening and the rod 15 from moving upward moving down. This achieves locking of the wings. The blades are locked as long as the nut 18 at the end of the rod 15 is in place.

The blade blade 12 is, in an example case, a gently V-shaped profile. In the exemplary case, the profile of the blade blade 12 is folded 5 mm from a steel plate and welded to the blade stiffener 9 by weld 13 so that the V-shape of the blade 12 is open downwards with the blade horizontal.

Figure 3 shows, by way of example, a cross-sectional view of a foundation post according to the invention in a second stage of installation. The wing stiffener 9 is secured between the fastening lugs 7 by a bolt 10. The bolt 10 is tightened to a fixed base nut by a locking nut 11. The distance between the latching lugs 7 is 1 mm greater than the material strength of the wing stiffener 9 so that the bolt joint Thanks to the articulated attachment, the wing can rotate from a vertical position to a horizontal position, i.e. the wing can open. The triangular head attached to the base frame of the wing stiffener 9 acts as a limiter of the wing movement. In the second stage of installation, the nut 18 and the end sleeve 17 are removed and a punch sleeve 20 is installed in place of the end sleeve 17 By hitting the punch sleeve 20, the rod 15 extends downward, thereby engaging the wedge and locking piece 14.

Fig. 4 shows, by way of example, a partial cross-section of a pillar foundation according to the invention during the final stage of installation. The punching sleeve 20 can only fall to a certain depth inside the body tube 1 because the upper end of the punching body 20 is larger than the inside diameter of the body tube 1. When the wider portion of the punching sleeve 20 engages the end of the body tube 1, the punching sleeve 20 no longer forces the rod 15 downwards, but the force is transferred to the foundation body and the entire foundation is pressed deeper into the ground as the punching sleeve 20 is struck. The ground guides the wings open as the foundation sinks deeper into the ground.

Figure 1 shows, by way of example, a foundation post according to the invention before or after installation. In this case, the image is used to illustrate the foundation of the post after installation. As the wing opens 90 degrees, it is horizontal, and the end of the wing stiffener 9 engages the body tube 1, thereby limiting the wing movement. When the wings are fully open, the wedge and locking piece 14 moves freely inside the frame tube 1, so that the striking sleeve and the rod-wedge-locking piece combination can thus be removed and used for the next foundation installation. In the example case, there are four wings and they are fixed around the foundation frame at 90 degrees.

The structure and operation of a foundation for a post according to the invention has been described above. The invention is not limited to the example described above, but the inventive idea can be applied in various ways within the scope defined by the claims. For example, the V profile of the wings may open upwards when the wings are horizontal. The blade profile of the wings can be, for example, straight or M-shaped. The number of wings can be, for example, three. The wings can also be attached to several layers, e.g. 2 layers, and 3-4 wings to each layer. The action of the wedge member can also be turned in the other direction by turning the wedge member, whereby the release and forced release of the wings would be by pulling rather than pushing the rod. A net or blanket can be attached between the wings to provide greater support for the foundation in gravel or soft terrain.

Claims (2)

1. The foundation of a pillar, comprising: - a body made of a tube (1), - fixed guides (2) welded to the side of the main tube (1), - wing-lugs (7) welded to the main tube (1) - a stiffener (9) and 12) welded vanes secured by a bolt (10) from their stiffener (9) between the fastening lugs (7), characterized in that the wing stiffener (9) is pivotally mounted between the fastening lugs (7) by a bolt (10) and a nut (11); 9) has a hook-shaped projection and a triangular end, a wedge and locking piece (14) fixed on the rod (15), arranged to engage the wing hooks, and an end sleeve (17) mounted on the end of the frame (1), locked immovably with respect to the rod (15) and the wedge and locking piece (14) attached thereto by the nut (18) and the wedge (19). Pillar foundation according to Claim 1, characterized in that the wing stiffener (9) has a hook-shaped projection and a triangular end, and the stiffener (9) end engages the frame tube (1) when the wing has opened 90 degrees, thereby limiting the wing movement . claim: