DE2222734B2 - THANK YOU - Google Patents

Description

35

The invention relates to a ground anchor, the anchor plate of which can be driven into the ground to a predetermined depth using a locking device and, after releasing the locking device, follows a curved path during further driving, with a pull-up rod, the lower end of which is rotatably connected to the lower end of the anchor plate and the upper end of which has a coupling ring, with an auxiliary rod. the lower end of which is connected to the upper end of the anchor plate and the upper end of which is loosely inserted into the coupling ring, and to an anchor plate on the surface of which a number of separate reinforcing elements are arranged along its longitudinal axis. that the armature plate can bend hm at locations between the Verstärkungselementerf to the side.

One such, proposed in DT-OS 20 55 268 Ground anchor can only be used up to a certain limit because of the size of its anchor plate increasing the size of the anchor plate also reduces the frictional forces during driving / wiping The soil and ground anchors grow. Because about the tensile force that is brought into the ground Ability to hold ground anchors is approximately proportional to the anchor plate area. contemplates the endeavor to become one <κ> Lower the ground anchor with the largest possible anchor plate to be able to.

Thus, the invention is based on the task of designing the ground anchor of the proposed type so that However, if the anchor plate area is very large (15 initially when driving into the ground, one as possible presents a small friction surface.

In the prior art, plate-shaped ground anchors are known from DT-AS 19 27 08 '/, the anchor plate of which is made up of individual plate parts that can be pivoted relative to one another. which are pivotally connected to each other via relatively small connecting elements, but the high driving forces must also be transmitted via these connecting elements, which means a very high stress for these parts, especially when driving into solid ground. About locking rod mutually articulating plate parts must be kept exactly in one plane during normal driving in, which also causes difficulties when the ground is hard and possibly still uneven hard. Finally, it means a disadvantage to manufacture and use the numerous locking and connecting members of the anchor plate, because this is associated with high costs. It is also understood that because of the high loads on the small connecting elements of the anchor plate surface, there are limits to their size.

Basically it is also from US-PS 32 76 173 known to use a ground anchor nut several arms / u that can be spread out on different sides, in order to keep the driving force within limits, nevertheless to generate the highest possible resistance of the driven ground anchor, however, this is known solution and relatively complicated expensive to manufacture and has. since it has spread out like an umbrella · Spreizarnic that has the function the anchor plate ^ have to take over in the invention, in different soil formations. especially their softer ones, not a very high resilience.

The above object is achieved in a ground anchor of the proposed type in that the The anchor plate is designed as an inverted U-shaped plate and the pull-up rod is two toe-clipped, each of which Leg is assigned to a plate part. Since the Friction on the outer surface of the anchor plate with Except for a small increase due to the increase in the reinforcement elements when doubling the plate surface is almost the same and the face of the ground anchor is also a considerable increase has experienced. the Ankcrplatienfläche can practically with almost constant driving forces enlarge twice. The ground anchor obtained in this way has the further advantage that the large Anchor plate is connected not only at its outer ends but also in the middle with a tension element. so that the anchor plate does not bend either and, in the course of time, does not bend up at its outer ends can be.

In the drawing are two Ausführungsbeispieie the Shown ground anchor according to the invention. It shows

Fig. 1 is a front view of a first embodiment of the ground anchor.

1 · '1 g. 2 and 3 side view and perspective View of the assembly example of FIG. 1,

F i g. 4 is a front view of a striking tool with a driving tube and driving control rods for driving in the ground anchor shown.

F i g. 5 is a plan view of the FIG. 1 g. 1 to 4 shown embodiment it,

I ■ 1 g. 6 is a front view of a wrapping rod that in connection with your ir F i g. 4 is used,

F i g. 7 through 11 views used in explanation of the Impact method of the ground anchor serve, and F i g. 12 the side view of a second embodiment

shape of the ground anchor.

1, 2 and 3, the first Aijsführungsbeispiel a ground anchor according to the present Invention subsequently described in detail. A ground anchor generally designated 20 contains a rectangular anchor plate 21, the four corners of which are bevelled, and the one with a channel-shaped A bulge is provided which extends along the longitudinal axis of the anchor plate 21. The rinnenför moderate bulging can be achieved by a suitable metal forming Procedure to be produced. The anchor plate 21 is central to an inverted U-shape bent symmetrically; this creates two connected plate parts 21a and 216 and Reinforcement elements 24.il to 24a 6 and 2461 and 2466 (in the exemplary embodiment each plate part 24a / 6 with six reinforcement elements), the through incisions 23a! to 23a 5 and 2361 and 236 5 in tier rinneniormigen bulge are formed, so that the Versuirkungselemeiue 24al to 24a 6 and 24 /> l to 2466 by a suitable distance from each other are separated. This creates an opening 22 at the tip of the anchor plate 21.

At the lower ends of the Plattenieile 21.7 and 21 6 tier anchor plate 21 are guide plates 25a and 256 ν ,. B. firmly attached by welding, which have sharp edges and extend over the lower front edges of the plate parts 21a and 216 also downward. These guide plates 25a and 256 are intended to cut through the earth and guide the anchor plate 21 when it is hammered into the earth. If forces are exerted on the plate parts 21a and 216 to an extent exceeding a predetermined amount and move them outwardly away from one another, the plate parts 21a / 6 are at the incisions 23 «71 to 23.75 and 2361 and 2Ϊ6 5 between the reinforcing elements 24a1 to a 6 and 2461 to 6b bent on the outside until adjacent reinforcement elements 24a1 to 76 and 2461 to 6 6 butt against each other. By suitably dimensioning the spaces between the reinforcing elements 24a 1 to a 6 and 2461 to 6 6, a desired curve of the plate parts 21a and 216 is obtained. In order to facilitate the bending of the plate parts 21a and 216, elongated recesses 26a1 to 2ha 5 and 2661 to 266 5 at the level of the incisions 23al to 23a 5 and 2361 to 236 5 on both sides of the reinforcement elements 24al to a 6 and 2461 to 66. In place of the elongated recesses, incisions can also be made.

The respective innermost in driving reinforcing elements 24AL and 2461 are by sealing and schlagaulfangende end portions 27a and closed 276, which may be fixed to the reinforcing elements 24AL, 6l welded or by similar methods, so that no earth in this lowermost Verstärkungselemen- \ c 24AL and 2461 can penetrate, and when the Erdatiker hits the earth, the blows to the plate parts 21 a and 216 can be transmitted.

Cutting edges 28-7 and 286 are at a right angle <«>" J the leadership boards 25a and 25 £> attached by '. Am? the sensing plates 25;) and 256 and to the Interst reinforcing elements along 24al and 2461 !.: ■> ■ />. I are welded iin'jsachsen.

An up / iehslab 33 consists of two legs 33a ', _ _s VND Ή ^1' and setting 'a coupling ring 32. wherein the ',! kidney ends of the legs 33a and 336 are axially: HiFiOsnalten and adapted to the upper edges of pull-up plates 29a and 296, so that they are there for. B. can be firmly attached by welding. An anchoring rod 36 for the anchor rope has two eyelets 34 and 35, of which the lower eyelet 34 is loosely connected to the coupling ring 32 of the pull-up tab 33 (FIG. 1).

Auxiliary members 30a and 306 are fixedly attached to the lower parts of the pull-up plates 29a and 296, and in such a way that between the auxiliary members 30a, 6 and the pull-up plates 29a, 6 there is a gap. The lower ends of the mounting plates 29a and 296 are rotatable at the cutting edges with pivot pins 31a and 316, respectively 28a and 286 attached between the drawer plates 29a and 296 and the auxiliary links 30a and 306 are inserted.

The lower end of an auxiliary rod 37a, the / ur Transmission of the compressive force of the anchor plate 21 is used is in a bulged part 38a of the uppermost reinforcing element 24a 6 fitted and there, for. B. firmly attached by welding. Of the Hilis rod 37a leads through a ring 39. on the Aulzich rod 33 directly under the coupling ring 32 is firmly attached. where the top of the Kills rod 37a is bent. so that he with the Coupling ring 32 can cooperate, as spatulas in the Detail is described.

That part of the auxiliary screen 37a. who is about the Ring 39 rinau · - upwards, - "stretches. Isi m.!, Ii-.g u κ- tie! Distance between the pivot pins 3> d · .. ·; - \ i;! / I plate 29 .; and the ausgehuchtcu ·· ic. 3X./ des Reinforcement element 24a 6.

Using the F 1 g. 4. 5 and ο becomes a striking mechanism tool for striking de, ground anchor 20 described. The impact tool generally includes a Impact tube 50. two. Impact control rods 55./ uiid 556. die lead down from the lower end of the striking tube 50, and a striking rod 60. The lower end of the Impact tube 50 is closed with an end part 52 which is fixedly attached to it by pitting or the like and is provided with an elliptical hole 53. which is smaller than the cross section of the striking tube 50. The longer ones Sides of this elliptical hole 53 are connected by a partition wall 54 so that two holes arise through which the impact control rods 55a and 556 parallel to each other in a: predetermined length lead through.

According to I-1 g. b , the striking rod designated groove 60 consists of a rod part 61 which is longer than the striking tube 50. and a hammer head 62 which is attached to the lower end of the rod member 61. When the impact rod 60 inserted into the impact tube 50 is lifted and dropped, the impact on the conf 5b of the impact control rods 55a and 556 is transmitted.

In the following w ^; rd on the basis of FIG. 7 to K describe the way in which the ground anchor is hammered in. The impact control rods 55a and 556 are inserted into the reinforcement elements 24, -il to 24.7 6 and 2461 to 2461 to 246 6 of the plaiicnieile 21a and 216 until the lower ends of the impact control rods 55a with 556 on the impact-leaning end parts 27a and 27 / bump. The ground anchor 20 is vertical with the cutting edges. 28a and 2Sh , directed downwards, brought into an excavated hole, as shown in Fig. 7. The impact rod 60 is inserted into the sciilag tube 50 and repeatedly raised and dropped, so that the blow on the head 56 of the impact rods 55a by 556 over the end parts 27a. 6 on the plate parts 21a unc

21 6 is transmitted. As a result, the loading anchor 20 is gradually driven into the ground. Since the shock-control rods 55 and 556 24 in the reinforcing elements (1 to 24a 6 and introduced 2461-2466 are the Plattenteilc 21 "are ί and 21 6 prevented to bend outwards when the ground anchor is hammered 20th

When the ground anchor 20 has reached the predetermined depth, the hammering is briefly interrupted so that the striking rod 60 can be pulled out of the striking tube 50. The hammering is then resumed by executing heavy blows with a large hammer or the like directly on the hammer tube 501 , as in E i g. 8 is shown so that the blows are fed directly to the upper edge of the anchor plate 21 and not its lower end. When the impacts are issued by the impact rod 60, they are through the impact control rods 55a and 55b and through the impact receiving end parts 27.7 and 27b on the lower edges of the plate parts 21. ·; and 2 \ b transferred. Since the impacts are not transmitted to the shock control rods 55.7 and 556 24 in the reinforcing elements (1 to 24.i 6 and 2461 to 2466 of the plate members 21.7 and 21 b inserted, the impact control rods 55.1.6 remain behind the plate parts 21st ι and 21 / ·) back when the latter are struck under the blows carried out directly by the blow pipe 50 into the earth. As a result, the lowest reinforcement elements 24.il and 2461 and thus the attached guide plates 25a and 25b are released from the impact control rods 55.7 and 556, that is, the plate parts 21.7 and 216 are gradually released from the guidance of the impact control rods 55.7 and 556, which until then d ducks to hit the plate parts 21.7 and 216 straight into the earth. I Inter the blows on the upper edge of the anchor plate 21 and under the influence of the rod pressure on the Aufziehplaiten 29 .; and 296. the pull-up rod 33 and is applied to the end parts 27.7 and 276 at the ends of the lowermost reinforcing elements 24a1 and 2461 , as shown in FIGS. 9 shows the plate parts 21a and 216 gradually against the mounting boards and 29.7 296gebogen, dhdie Plattcntei-Ie 21a and 216 along the cuts 23 "? 1 and 2361 between the reinforcement core elements 24a1 and 24a 2 and 2461 and 246 2 bent towards the pull-up plates 29a and 296. The plate parts 21a and 216 are thus advanced along a curved path in the earth.

However, if the plate members 21a and 216 were allowed to flex indefinitely, the curvature would increase to such an extent that it would be impossible to advance the plate members 21a and 216 along the curved paths. The space between the reinforcement elements 24.M and 24. (2 and 2461 and 246 2 is therefore determined in such a way that the plate parts 21. · / and 216 can be advanced along the curved path, ie the curvature is limited.

If 50 blows are carried out on the hammer tube, the plate parts 21, 7 and 216 are successively along the cuts between the reinforcing elements 24. (1 and 24. (2, 2461 and 2462, 24, / 2 and 24.7 Ϊ, 246 2 and 246 3, etc. bent and in the

ίο driven soil, with the initially from the Guide plate !! Follow 25, 7 and 256 curved paths. Therefore, as in Fig. 10 is shown. the Plattentcile 21./ and 216 moved far apart and along the curved

roads are driven into the earth so that they are stuck in it. Then the impact tube 50 together with impact control rods 55a and 55i pulled out. So that the impact of the Erdan kers 20 is completed.

jo When the ground anchor 20 is knocked into the ground is pulled on the auxiliary rod 37a on the plate part 21, / The upper end 40; / of the auxiliary rod 37; / cooperates with the coupling ring 32 when the ground anchor 20 will eventually be fixed in the ground. As a result, the force exerted by the clamping siab 36 is applied to 3 Transfer elements, d. H. on the two legs 33. ·; and 336 of the pull-up rod 33 and the auxiliary rod 37a. se that the forces exerted on the anchor plate 21 act at three points, the right and left Cutting 28.7.6 and on part 38a near the transition between the plates 21.7.6 (Fig. 11) In this way a firm anchorage is achieved.

When the plate parts 21; / and 216 are knocked into the earth along the curved paths in the manner described above, the mounting plates 29.7 and 296 and the mounting rod 33 are forced to move obliquely due to the pressure of the ground. If the ground is soft, there are no problems, but if the ground is hard. the legs 33a and 336 of the pull-up rod 33 are bent as shown in FIG. H) is shown. However, if the anchoring slab 36 is loaded, the legs 33a and 336 are pulled straight (FIG. 11).

If the holding force of the ground anchor 20 is to be increased, an additional auxiliary rod 376 can be sheared, which is similar to the auxiliary rod 37a in both construction and function. The lower end of the auxiliary rod 376 is passed through a bulged part 38i , the uppermost reinforcing element

so 246 6 is formed. and is fixedly attached thereto by welding or the like, while the upper end is bent so that it is connected to the coupling ring 3; can interact, as in the case of the auxiliary rod37 £

Forces at 4 points on the anchor plate 21 (FIG. 12).

In addition 7 sheets of drawings

Claims (2)

Patent claims: 1. Ground anchor, the anchor plate of which can be driven into the ground to a predetermined depth using a locking device and, after loosening the locking device, follows a curved path during further driving, with a pull-up rod, the lower end of which is rotatably connected to the lower end of the anchor plate and whose upper end a coupling ring which with an auxiliary rod. the lower end of which is connected to the upper end of the anchor plate and the upper end of which is loosely inserted into the coupling ring, and with an anchor plate on the surface of which a number of separate reinforcing elements are arranged along its longitudinal axis in such a way that the anchor plate is at points between the reinforcing elements can curve towards the rope, characterized in that the anchor plate is designed as an inverted U-shaped plate (21) and the pull-up rod (33) are two-legged, each leg (33a or b) being assigned to a plate part (2Li. 21b). 2. Ground anchor according to claim 1, characterized in that the anchor plate (21) is provided with a pair of auxiliary rods (37.7, 376) . of which an auxiliary rod (37.1 or 6) is assigned to a plate part (2Li or 21b ) .