DE1147177B - Ground anchor, preferably for the guy ropes of masts - Google Patents

Description

Ground anchor, preferably for the guy ropes of masts The invention refers to a ground anchor, preferably for holding the obliquely upward Guy ropes of masts, consisting of a single one to be driven into the ground Stake with an attachment of the rope at the top of the anchor at an obtuse angle to its longitudinal direction.

It is known that it is used to absorb the couple of forces that the Resulting of the above and below the pivot point of the anchor to the ground exerted surface pressures is formed, is disadvantageous, the anchor opposite to be driven into the ground inclined to the cable. Then namely has the resultant the surface pressure generated above the pivot point is directed upwards Component that lifts the ground only too easily. A well known straight anchor for a cable pulling parallel to the earth's surface on the anchor is therefore in the direction of of the cable drive inclined into the ground. However, this arrangement is for The inclusion of an upwardly inclined cable pull is only suitable to a limited extent because in the case of inclined ropes, too large a component of the rope pull in the longitudinal direction of the anchor falls or the earth resistance at the head of the anchor becomes too small and the Frictional forces, especially with loose soil, then no longer suffice the anchor to prevent it from being pulled out.

The invention is based on the object of creating a ground anchor, which is suitable for pulling a cable at the largest possible angle with respect to the horizontal to record.

In the case of a ground anchor, a single one to be driven into the ground There is a peg and where the rope is at the top of the anchor at an obtuse angle attacking its longitudinal direction, the invention consists in that the armature is circular arc-shaped is curved and the rope is directed away from the side of the center of curvature attacks at anchor. This anchor is driven in its longitudinal direction, so that Cavities and loosening of the soil can be avoided. An investigation into the The balance of power shows that such an anchor affects the Wall friction is required as a normal straight anchor. The resultant of the Surface pressure below the pivot point has due to the curved shape of the anchor has a downward component. whose reaction the soil seeks to lift. Naturally, however, greater excavation forces can occur at the lower end of the anchor be absorbed by the ground. The resultants of the above and below the The pivot point of the anchor taking into account the surface pressures exerted on the ground of the wall friction angle intersect each other due to the arch shape to a smaller extent Distance from the anchor than in the case of a straight shape, so that a cable pull in a correspondingly larger angle of inclination relative to the horizontal can be recorded without to pull the anchor lengthways out of the ground.

There are arc-shaped curved ground anchors known that are paired one behind the other in the vertical plane of the rope, with the lower ends facing away from each other, to be driven into the ground. After driving in, the anchor pair coupled at the upper end by an articulated engaging mechanism so that the at this mechanism engaging cable to spread the lower ends of the armature seeks. The use of such anchor combinations is cumbersome.

In the drawing, an embodiment of a ground anchor is shown in FIG reproduced the invention. Fig. 1 shows the ground anchor in a longitudinal section parallel to the rope plane, Fig. 2 is an associated side view, Fig. 3 is a section according to the line 111-I11 in Fig. 1 and Fig. 4 the balance of forces on the curved one Anchor.

The ground anchor consists of a curved leaf-shaped anchor part 1 and a head part 2 used to drive in and fasten a rope 7 or similar traction means. The leaf-shaped anchor part 1 consists of a relatively hard sheet steel. In the middle, the anchor part l has a rib 3 formed by folding, the height of which ends in the leaf-shaped part l towards the lower end. The rib gives the anchor the rigidity it needs to absorb the bending forces from the cable pull and the buckling force when it is driven in.

At the upper end, at the level of the earth's surface, the leaf-shaped anchor part 1 has an angled portion 4, which primarily serves to distribute the bending forces from the rib to the leaf. At the point of the rib 3, the gap in the bend 4 is expediently closed by a welded-in small intermediate piece. The angling may improve the support of the anchor against the ground. depending on the direction of the cable pull and the angular direction of the anchor relative to the earth's surface.

The leaf-shaped one corresponds to the different firmness of the soil Anchor part l is wider at the top than at the bottom, as shown in particular in Fig. 2. The proportions the width and the most favorable shape are left to practical tests.

The head part 2 of the anchor engages with its lower end in the fold of the rib 3. The two parts 1 and 2 are advantageously connected to one another by welding at the edges. The head part 2 has a projection 5 directed towards the center of curvature of the arch with an attachment point 6 designed as an eye, notch or the like for the rope 7. The rope 7 is indicated in the figures only by the center line with an arrow. On the eye, for. B. attack a pivotable over the upper end of the head part 2 shackle.

Fig.4 shows the balance of forces for the bent anchor according to the invention. The cable pull S is inclined at an angle @ relative to the surface of the earth. The forces P above and Q below keep the cable S and the moment generated by the cable S in equilibrium. The forces P and Q are intended to be the resultant of the surface pressures distributed above and below the pivot point of the anchor in the ground. The forces P and Q are each inclined by the maximum wall friction angle a from the normal to the surface of the anchor section in question. The forces P, Q and S intersect at point A, which corresponds to the equilibrium of the forces. The force triangle drawn above the base S indicates the proportions of the forces.

In Fig. 4 the lines of action of the forces P and Q are extended beyond point A. They include the hatched angular range. The point of intersection of all three forces must fall within this range if there is equilibrium. In dashed lines, for example, another distribution of forces is indicated which fulfills this condition and in which the inclination of the cable S1 relative to the ground is smaller than the maximum inclination S. It can be seen that the maximum value of the angle β is dependent on the curvature of the anchor and that the greatest possible angle of inclination ß of the cable S to the ground is significantly greater than with a straight anchor, because the curvature of the anchor, the maximum inclination of the lower force Q is steeper than with the straight anchor and thus the intersection A of the forces P, Q and S is closer to the anchor. As can be readily seen from the illustration, this advantage is further enhanced by the fact that the point of application B of the cable pull S is laterally displaced out of the axis of the armature.

Claims (4)

PATENT CLAIMS: 1. Ground anchor, preferably for holding the sloping upwardly directed guy ropes of masts, consisting of a single peg to be driven into the ground with an engagement of the rope at the upper end of the anchor at an obtuse angle to its longitudinal direction, characterized in that the anchor is curved in the shape of a circular arc and the rope (7) acts on the anchor facing away from the side of the center of curvature. 2. Ground anchor according to claim 1, characterized in that the point of application (6) of the rope (7) on the anchor is offset towards the side of the center of curvature. 3. Ground anchor according to claim 1 or 2 with leaf-shaped and through a longitudinal rib reinforced anchor part, characterized in that the longitudinal rib (3) is formed from a fold of the leaf-shaped anchor part (1). 4. Ground anchor according to one of claims 1 to 3, characterized in that the leaf-shaped anchor part (1) has at the upper end an angled portion (4) directed away from the side of the center of curvature. Documents considered: German Patent No. 237195; Austrian Patent No. 77 551; U.S. Patent No. 1775,317.