AT13718U1 - ground anchor - Google Patents

Abstract

An earth anchor (100) having an end element (1) in the region of a Erdankerendes (10) and a cladding tube (2), wherein the cladding tube (2) in the region of the end element (1) is supported and at least one recess (21) in a jacket (22) of the sheath (2) and a spreading device for spreading the sheath (2) in the region of the recess (21), wherein the spreading device comprises a threaded rod (3) inside the sheath (2) and a head nut (3) corresponding to the threaded rod (3). 4), wherein the threaded rod (3) is connected to the end element (1) and that the head nut (4) in the region of the end element (1) opposite end (20) of the ground anchor (100) is arranged and by turning the head nut (4) a force on the cladding tube (2) can be applied.

Description

Austrian Patent Office AT 13 718 Ul 2014-07-15

Description [0001] The present invention relates to a ground anchor having the features of the preamble of claim 1.

Generic ground anchors are driven into the ground - rammed, beaten or drilled - and are connected there by a spreader effect with the ground.

Thus, DE 294 14 427 U1 of December 5, 1996 shows a ground anchor made of a mandrel-shaped base body and arranged above the main body, provided with slots sleeve, which is in operative connection with this in the region of the tip of the body.

EP 1 176 258 A1 of January 30, 2002 shows a ground anchor with a threaded portion and a head portion, in which also a spreading device is provided.

GB 2 315 285 A of January 28, 1998 also shows a ground anchor with a spreading device.

The object of the invention is to provide a comparison with the prior art improved ground anchor.

This object is achieved by a ground anchor with the features of claim 1. Advantageous embodiments of the invention are defined in the dependent claims.

Characterized in that the threaded rod is connected to the end member and that the head nut is disposed in the region of the end member opposite end of the ground anchor and by turning the head nut a force on the cladding tube can be applied, can be rotated by turning the upper end of the ground anchor Verspreizung the Verspreizvorrichtung done at the bottom of the ground anchor. Thus, essentially the full length of the ground anchor can be used for the spreading, which contributes to a more stable hold of the ground anchor in the ground.

Particularly advantageous, it has been found when the end element is designed as a foot nut for fixing the cladding tube on the end element.

According to a preferred embodiment it can be provided that the threaded rod is releasably attachable to the end member, whereby removal of the threaded rod of the ground anchor can be done from the end element for the purpose of expansion of the ground anchor from the ground.

Furthermore, it can be preferably provided that protrudes in the position of use of the ground anchor in a soil, the end element opposite end of the ground anchor from the ground.

Particularly advantageous, it has proven to be when in the position of use of the ground anchor in the ground, the threaded rod, the head nut and the cladding tube protrude from the ground, as a change to the ground anchor - should this no longer withstand the forces acting on him - can become visible.

Particularly preferably, it can be provided that the at least one recess in the jacket of the cladding tube is formed as a slot.

It has proven to be particularly advantageous when the jacket of the cladding tube has two or more recesses, wherein the recesses are formed as slots.

According to a preferred embodiment it can be provided that a longitudinal extent of the slots extends substantially parallel to a longitudinal axis of the cladding tube.

It has also proved to be advantageous if the slots have at least one widening. [0017] It has proven to be advantageous if at least two slots run essentially parallel to one another.

Preferably, it may further be provided that at least two slots run one behind the other along the cladding tube.

It is particularly preferably provided that a cross section of the at least one recess in the shell of the cladding tube has a substantially trapezoidal shape.

Conveniently, it is further, that a longer base of the trapezoidal shape of the at least one recess lies on an inner side of the jacket of the cladding tube.

It is also proposed that the threaded rod in the assembled state at the end member protrudes through the end member.

It is particularly preferably provided that in the assembled state of the ground anchor, the end member is bolted to the cladding tube and the threaded rod, wherein the end member has an internal thread, which corresponds to a threaded rod outer thread, and the end member has an external thread with a Hüllrohrinnengewinde corresponds.

According to a possible embodiment, it may be provided that the Erdan-kerende is conically tapered.

According to a preferred embodiment it can be provided that the threaded rod has a conical tip and that a Endelementmantel the end member is formed as a truncated cone.

It is also proposed that lateral surfaces of the apex of the threaded rod and the truncated cone of the end element are aligned with each other.

Furthermore, it can be preferably provided that the cone tip of the threaded rod and the truncated cone of the end element together form a Erdankerspitze.

Be particularly advantageous if the threaded rod has a length between 0.5 meters and 5 meters and / or that the cladding tube has a diameter between 10 millimeters and 100 millimeters and / or that the cladding tube between four and twenty Recesses which are formed as slots.

Further details and advantages of the present invention will be explained in more detail below with reference to the description of the figures with reference to the exemplary embodiments illustrated in the drawing.

[0030] [0030] [0030] [0038] [0038]

Show:

1 is a schematic representation of a ground anchor in the soil before spreading through the spreader,

2 is a schematic representation of a ground anchor after spreading by the spreading,

3 is a schematic representation of a ground anchor with remote threaded rod,

4 is a schematic representation of a ground anchor during removal of the remaining ground anchor,

5 is a sectional view through a ground anchor prior to Verspreizung,

6 is a detail of a sectional view of a ground anchor after spreading,

7 shows four illustrations of a variant of a ground anchor with a split cladding tube,

8 is a detail view of a cladding tube,

Fig. 9 is a cross-sectional view through a cladding tube at the recesses. Figure 1 shows a schematic representation of a ground anchor 100 in already submerged state in the ground 101. The ground anchor 100 has in an area of Erdankerendes 10 an end member 1, on which a Cladding tube 2 of the ground anchor 100 is supported. In this case, the cladding tube 2 recesses (not shown, see Figure 8 and Figure 9) in a jacket 22 of the cladding tube 2 and a spreading device for spreading the cladding tube 2 in the region of the recesses, wherein the spreading device has a threaded rod 3 in the interior of the cladding tube 2 and a corresponding with the threaded rod 3 head nut 4, which is arranged in the region of the end member 1 opposite end 20 of the ground anchor 100. The threaded rod 3 is also, as the cladding tube 2, connected to the end member. By turning the head nut 4, a force can be applied to the cladding tube 2.

The preferred dimensions for such a ground anchor 100 are for the length of the threaded rod at about 0.5 m to 5 m, the diameter of the cladding tube 2 is between 10 mm and 100 mm and for the recesses on the cladding tube 2 is a Number between 4 and 20 provided in a preferred manner.

FIG. 2 shows a splayed ground anchor 100. The head nut 4 was tightened so that this head nut moves towards the end element 1. As a result, the threaded rod 3 is pulled while the cladding tube 2 is pressed. The force deflection takes place in the end element 1, which redirects the tensile force of the threaded rod 3 in a compressive force in the cladding tube 2.

The head nut is tightened until the cladding tube 2 buckles at the recess. For this purpose, the path of the head nut 4 is preferably predetermined in order to achieve a precisely defined buckling of the cladding tube elements. Usually, the path of the head nut 4 is indicated over the revolutions with the height of rise of the thread of the threaded rod 3. About the feed of the head nut 4, the pressure in the cladding tube 2 is increased until the Hüllrohrsegmente buckle. This feed is continued until the desired spread of the cladding tube 2 is established. The spread is adjusted differently for each type of soil, in order to achieve an optimal effect of the subsequent force entry.

When using the ground anchor 100, a tensile force is introduced via the threaded rod 3 into the ground anchor 100. Since the threaded rod 3 extends beyond the head nut 4, a force can be introduced into the threaded rod 3 via the head nut 4 by means of any screw system. This tensile force is then passed over the threaded rod 3 to the Erdankerende 10, where it is redirected by the end member 1 in the cladding tube 2 as a compressive force. From there, the force reaches the spread part of the cladding tube 2. Since the segments are spread out in the ground, now these spread-out segments transmit the force to the immediately adjacent soil 101th

The introduction of force via the spread-out casing 2 corresponds to a punctual transfer of force to the soil 101, wherein the transfer point is very close to the lowest point of the ground anchor 100. This ensures a maximum transfer possibility of the forces in the soil 101.

The soil 101 in the region of the spread was laterally deformed by the spreading process, where there is locally a compression and soil tension within which forces can be better initiated.

Due to the introduction of force into the soil, depending on the type of soil, a soil body is activated, which can be determined for the maximum tensile force. It is not only the weight of the soil body, but also the frictional force generated by this body along its lateral surface, which can be activated for the sustainability of the ground anchor 100.

The maximum tensile force for the ground anchor 100 thus depends crucially on the soil properties that determine the size of the activated soil body. Thus, for each soil 101 according to the soil mechanical characteristics to determine the load capacity. This is normally done on the basis of the results of the soil investigation by a geotechnician. [0048] In this regard, it should be noted that soil 101 is intended to encompass all types of soil, such as gravel, stone, etc.

As can be seen well from this figure 2, projecting in the position of use of the ground anchor 100 in the ground 101, the end member 1 opposite end 20 of the ground anchor 100 from the soil 101 out. It is preferably provided that protrude in this position of use of the ground anchor 100 in the soil 101, both the threaded rod 3, the head nut 4 and the cladding tube 2 from the soil 101.

This vertical position of use of the ground anchor 100 is preferably provided, but all other possible positions are also conceivable.

Should there be an undesirable movement of the ground anchor 100 in the ground 101 due to excessive force by a train on the ground anchor 101 on the ground anchor, the threaded rod 3 would stand out together with the head nut 4 from the cladding tube 2 at this end 20. This allows a simple optical control of whether the ground anchor 100 is still firmly in the ground 101.

Another great advantage of this ground anchor 100 is that, should it no longer be needed, all parts of the ground anchor 100 can be completely removed from the ground.

For this purpose, the threaded rod 3 is removed from the end member 1 in a first step-preferably by unscrewing.

In the figure 3 is now shown how from the ground anchor 100 has already been removed this threaded rod 3. By pulling on the cladding tube 2, there is a pressure exerted by the soil 101 on the spreading and the cladding tube 2 together with its end element 1 - as shown in Figure 4 - are completely pulled out of the soil 101. At the same time, it may also be preferred to provide filler material in the cladding tube 2 at the same time as pulling out the cladding tube 2 together with the end element 1 in order to fill the resulting hole in the soil 101.

Figure 5 shows a section through a ground anchor 100 before it has been spread over its spreader. In this preferred embodiment, the end element 1 is designed as a foot nut for fixing the cladding tube 2 on the end element 1. In this case, the threaded rod 3 is detachably fastened to the end element 1. In the assembled state of the ground anchor 100 - as shown in this figure 5 - the end member 1 is screwed to the cladding tube 2 and the threaded rod 3, wherein the end member 1 has an internal thread corresponding to a threaded rod outer thread and the end member 1 has an external thread, which corresponds to the Hüllrohrinnengewinde (see also Figure 6).

FIG. 6 shows a detail of the ground anchor 100 in which the spreading of the cladding tube 2 has already taken place.

The Erdankerende 10 is tapered in this preferred embodiment, preferably even conically tapered. The threaded rod 3 projects through the end element 1 in the assembled state shown here.

In this case, the threaded rod 3 has a conical tip 31 and the Endelementmantel the end member 1 is formed as a truncated cone 11.

The lateral surface 32 of the apex 31 of the threaded rod 3 and the lateral surface 12 of the truncated cone 11 of the end element 1 are substantially aligned with each other.

Thus, the apex 31 of the threaded rod 3 and the truncated cone 11 of the end member 11 together form a Erdankerspitze 102. Again, the end member 1 is formed as a foot nut.

Figure 7 shows a variant of a ground anchor 100 to the previous embodiment. The only significant difference with this ground anchor is that here the cladding tube 2 is made in two parts. One part is connected to the end element 1 in which the spreading takes place and the other part of the cladding tube 2 can be removed after spreading in the ground 101 of the ground anchor 100. This has the advantage that for several ground anchors 100 of this part of the cladding tube 2 can be used again and again, whereby material is saved.

Otherwise applies mutatis mutandis for this ground anchor and that mentioned under the first embodiment mentioned.

FIG. 8 shows a part of a cladding tube 2, specifically those on which the recess 21 in the cladding 22 of the cladding tube 2 is formed.

This preferred embodiment has a plurality of recesses 21 in the shell 22 of the cladding tube 2, which are formed here as a slot. It is preferably provided that the longitudinal extension of the slots is substantially parallel to a longitudinal axis 23 of the cladding tube 2. The slots 2 further have here a widening 24, which contribute to a better buckling of the cladding tube 2. In this embodiment, the slots are substantially parallel to each other. Likewise, it would of course also be conceivable that the slots also run one behind the other along the cladding tube 2. Any mixture of them is of course conceivable.

Figure 9 shows a section through a cladding tube 2 at the point at which the recesses 21 are formed. In this preferred embodiment, the cladding tube 2 has six such recesses 21, which are formed as slots in the longitudinal direction of the cladding tube 2. From this representation, it is readily apparent that the cross-section of the recesses 21 in the shell 22 of the cladding tube 2 has a substantially trapezoidal shape. The base 25 of the trapezoidal shape of the recesses 21 lies on the inner side 26 of the shell 22 of the cladding tube 2. This shape of the recess 21, there is a preferred spreading of the cladding tube 2. REFERENCE LIST: 1 end element 2 cladding tube 3 threaded rod 4 head nut 10 Erdankerende 11th Truncated cone of the end element 1 12 Sheath surface of the truncated cone 11 of the end element 1 20 Opposite end of the ground anchor 100 21 Recess of the cladding tube 22 Shell of the cladding tube 23 Longitudinal axis of the cladding tube 2 24 Widening of the slots 25 Base of the trapezoidal shape of the recess 21 26 Inside of the jacket 22 of the cladding tube 2 100 ground anchor 101 earth 102 ground anchor point 5/16

Claims (20)

Austrian Patent Office AT13718U1 2014-07-15 Claims 1. A ground anchor (100), comprising - an end element (1) in the region of a ground anchor end (10) and - a cladding tube (2), wherein the cladding tube (2) in the region of the end element ( 1) and - at least one recess (21) in a jacket (22) of the cladding tube (2) and - a spreading device for spreading the cladding tube (2) in the region of the recess (21), wherein the spreading device a threaded rod (3) in Inner of the cladding tube (2) and having a threaded rod (3) corresponding head nut (4), characterized in that the threaded rod (3) with the end member (1) is connected and that the head nut (4) in the region of the end member (1) opposite end (20) of the ground anchor (100) is arranged and by turning the head nut (4) a force on the cladding tube (2) can be applied. 2. ground anchor according to claim 1, characterized in that the end element (1) is designed as a foot nut for fixing the cladding tube (2) on the end element (1). 3. ground anchor according to claim 1 or 2, characterized in that the threaded rod (3) releasably on the end element (1) can be fastened. 4. Ground anchor according to one of claims 1 to 3, characterized in that in the position of use of the ground anchor (100) in a soil (101) the end element (1) opposite end (20) of the ground anchor (100) from the soil (101). protrudes. 5. ground anchor according to claim 4, characterized in that in the position of use of the ground anchor (100) in the ground (101) the threaded rod (3), the head nut (4) and the cladding tube (2) protrude from the soil (101). 6. ground anchor according to one of claims 1 to 5, characterized in that the at least one recess (21) in the jacket (22) of the cladding tube (2) is formed as a slot. 7. ground anchor according to one of claims 1 to 6, characterized in that the jacket (22) of the cladding tube (2) has two or more recesses (21), wherein the recesses (21) are formed as slots. 8. ground anchor according to claim 7, characterized in that a longitudinal extent of the slots substantially parallel to a longitudinal axis (23) of the cladding tube (2). 9. Ground anchor according to claim 7 or 8, characterized in that the slots have at least one widening (24). 10. ground anchor according to one of claims 7 to 9, characterized in that at least two slots extend substantially parallel to each other. 11. Ground anchor according to one of claims 7 to 10, characterized in that at least two slots run one behind the other along the cladding tube (2). 12. ground anchor according to one of claims 1 to 11, characterized in that a cross section of the at least one recess (21) in the jacket (22) of the cladding tube (2) has a substantially trapezoidal shape. 13. Ground anchor according to claim 12, characterized in that a longer base (25) of the trapezoidal shape of the at least one recess (21) on an inner side (26) of the jacket (22) of the cladding tube (2). 14. Ground anchor according to one of claims 1 to 13, characterized in that the threaded rod (3) in the assembled state at the end element (1) through the end member (1) projects therethrough. 6/16 Austrian Patent Office AT13718U1 2014-07-15 15. Ground anchor according to one of claims 1 to 14, characterized in that in the assembled state of the ground anchor (100), the end element (1) with the cladding tube (2) and with the threaded rod (3) is screwed, wherein the end element (1) a Internal thread which corresponds to a threaded rod outer thread, and the end member (1) has an external thread, which corresponds to a Hüllrohrinnengewinde. 16. ground anchor according to one of claims 1 to 15, characterized in that the Erdankerende (10) is conically tapered. 17. Earth anchor according to claim 16, characterized in that the threaded rod (3) has a conical tip (31) and that a Endelementmantel the end element (1) is designed as a truncated cone. 18. Ground anchor according to claim 17, characterized in that lateral surfaces (32), (12) of the cone tip (31) of the threaded rod (3) and of the truncated cone (11) of the end element (1) are aligned with one another. 19. Earth anchor according to claim 17, characterized in that the conical tip (31) of the threaded rod (3) and the truncated cone (11) of the end element (1) together form a Erdankerspitze (102). 20. ground anchor according to one of claims 1 to 19, characterized in that the threaded rod (3) has a length between 0.5 meters and 5 meters and / or that the cladding tube (2) has a diameter between 10 millimeters and 100 millimeters and / or that the cladding tube (2) between four and twenty recesses (21) which are formed as slots. For this 9 sheets drawings 7/16