DE2353652A1 - EXTENSIBLE INJECTOR ANCHOR WITH DESTROYABLE ANCHOR FOOT - Google Patents

Description

Very upstairs / obb.

Removable grouted anchor with destructible anchor foot

The invention has an expandable grouting anchor with a destructible anchor foot to the subject, which consists of a Tension member and a corrugated anchor body serving as an anchor foot and one that is hardened by pressing in There is compression body formed from building materials, in which the tension member is releasably connected to the anchor body.

A grouted anchor is known from DP No. 1. 1 04.905, whose anchor body consists of a corrugated steel tube, the entire length of which on the tension member is screwed on. In this grouting anchor, the anchor body is due to its connection with the tension member essentially stressed on train.

It is also from OS No. 1.484. 572 a grouted anchor known whose anchor body also consists of a corrugated tube, but only at its rear part with the otherwise freely extending through the anchor body Tension member is connected. Such an anchor body is with a corresponding tension of the grouting anchor only stressed on pressure.

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5 09 8-19 / 0089

As far as such grouting anchors are not designed as permanent anchors, there is often after completion their task the need to remove the grouted anchor again to prevent the former Excavation surrounding soil for civil engineering work in the adjoining area due to the meanwhile inoperative Grouting anchor that has become in the ground is impaired. The known grouted anchors, in which the anchor body is designed as a corrugated, tensile or compressive stressed tube, are therefore so with the anchor body connected that the tension member can be released from the anchor body after the anchor is relaxed. The tension members are regularly screwed into the anchor head. Because according to today's practice in civil engineering however, grouting anchors are produced, the anchor body of which may have a length of 4-1Om, After unscrewing the tension member from the anchor body, a very long part remains in the ground, which under certain circumstances civil engineering work in this area, in particular the lowering of bored pile walls, Diaphragm walls or sheet pile walls, extraordinary with special needs. Since a complete dismantling of the long grout is not regularly possible, there is only the possibility of smashing the grout made of hardened building materials and the one from one Cut off existing steel pipe anchor bodies in the area, for example, of a diaphragm wall on both sides. This is extraordinarily difficult work, often because of the local conditions and the Need to get people up to the anchor body

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to allow penetration, not to be carried out.

The invention is based on the object of finding an anchor body that can be subjected to tension or compression, that with simple means and without the direct intervention of human labor using drill bits, diaphragm wall bits or the like can be destroyed in the area of the civil engineering work to be carried out.

The solution to the problem is seen in an anchor body at predetermined breaking points of its length is designed to be destructible by forces applied across the length.

In the case of anchor bodies of grouted anchors that are only subjected to pressure, it has proven to be advantageous the anchor body through a sleeve screwed onto the rear end of the tension member and a slack on the Form the tension member sitting number of sections of a corrugated pipe, the last to the air-side end Section is easily separable connected to the tension member.

The anchor body can also be through a sleeve screwed to the tension member at the rear end and a plurality of round steel rings, the inner diameter of which is slightly larger than the diameter of the tension member and its last ring on the air side with the tension member slightly is releasably connected, be formed. In the case of such an anchor body, it is only important that this, as long as the tension member sits in the socket, through

509819/0089 · Λ

the rings have a wavy surface, over which the compressive forces exerted on the anchor body in the pressed bodies are transferred ,. Once the tension member is unscrewed from the socket, the compression body, which has practically no effect over its length, can be removed Reinforcement contains more, easily destroy at any point by flashing »

In the case of anchor bodies subject to tensile stress, it has proven advantageous to have corrugated steel pipe sections through a brittle, not very sluggish weld with one another connect to.

The welding can be done at points. Such a brittle weld holds when tensioned of the grouting anchor reliably pulls the sections together without being subject to the slowly building up tensile forces to burst, while the weld easily bursts with sudden loads leaves.

In the case of anchor bodies subject to pressure, the sections of the corrugated tube or the rings can also be connected by gluing. The gluing of the individual sections or the connection of the last, air-side section with the tension member only has the task of holding the parts of the anchor body firmly on the tension member during the installation of the grouting anchor.

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In the case of pressure-loaded anchor bodies, it is also possible Instead of steel pipe sections or round steel rings, a highly pressure-resistant, but little tensile-resistant concrete pipe be used.

In the case of using concrete pipes that is preferable consist of spun concrete that is subject to tension are to be, it is advantageous to reinforce the concrete pipe and sections of reinforcing iron as reinforcement to use the length of which corresponds to the distances between the corresponds to predetermined breaking points and which are at the Break points overlap, but completely from each other are separated.

To further explain the invention, reference is made to two Reference is made to the embodiments shown in the accompanying drawings.

Show it

Fig. 1 shows the schematic representation of an anchor body according to claim 5 in a pressed body made of hardened building materials;

Fig. 2 shows an anchor body according to claim 8 in

a pressed body made of hardened building materials.

The grouting anchor consists of a tension member 1 which, with the exception of the thread seated in the socket 5, is protected against corrosion over its entire length by a cladding tube 2. The anchor body 3 consists of individual sections

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a corrugated pipe, which are connected to one another by spot welds. The anchor body 3 is seated in the compression body 4 made of hardened building materials.

Since the tension member 1 is provided with the smooth cladding tube 2 is, this can easily be unscrewed from the sleeve 5 and pulled out of the compression body 4, as far as this includes the cladding tube.

The anchor body 3 remaining in the ground can after removal of the tension member 1 by on the Lateral impact forces acting on the compression body 4 can easily be destroyed, since the brittle welds 7 not withstand such impact forces. So, for example, should be in the middle area of the anchor body a trench wall are brought down, the width of which corresponds to the middle section 6 of the anchor body 3, the middle section 6 can be removed from the sections adjoining on both sides by striking with a trench wall chisel of the compression body 4 are separated and removed from the trench wall without the remaining parts of the compression body 4 further prevent the lowering of the trench wall.

In the embodiment shown in Fig. 2, the anchor body 8 consists of a corrugated spun concrete pipe, which is reinforced by reinforcing iron sections 9 to absorb tensile forces. The tension member 1 sits with a thread in a sleeve 5, which is firmly connected to the concrete pipe 8 via the reinforcements 9.

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Claims (8)

Karl Bauer KG Very upstairs / obb. Patent claims: \ .J Removable grouting anchor, consisting of a tension member and a corrugated anchor body serving as anchor foot and a grouting body formed by pressing in hardening building materials, in which the tension member is detachably connected to the anchor body, characterized in that the anchor body is at predetermined breaking points along its length is designed to be destructible by forces applied across the length. 2. Removable grouting anchor according to claim 1, characterized in that the anchor body consists of a its rear end screwed to the tension member and from a sleeve sitting loosely on the tension member Number of sections of a corrugated tube, the air-side end of which last section with the Tension member is easily separable connected. 3. Removable grouting anchor according to claim 2, characterized in that the anchor body consists of an on The rear end is screwed to the tension member sleeve and a variety of round steel rings, whose Inside diameter is a little larger than the diameter of the tension member and its airy last ring with the Tension member is easily releasably connected. 509819/0089 ' ^{/ 9} 4. Removable grouting anchor according to claim 1, characterized in that the anchor body consists of a corrugated steel tube in a known manner, which is in several, due to a brittle, little failure-resistant weld connected sections is divided. 5. Removable grouting anchor according to claim 4, characterized in that characterized in that the sections of the steel pipe are welded together by point welds are connected. 6. Removable grouting anchor according to claim 4, characterized in that the sections are glued to one another are connected. 7. Removable grouting anchor according to claim 1, characterized in that characterized in that the anchor body consists of a highly pressure-resistant, but little tensile-strength concrete pipe. 8. Removable grouting anchor according to claim 1, characterized in that the anchor body consists of a reinforced one Concrete pipe is formed - its reinforcement from the distances between the predetermined breaking points corresponding, but completely separate sections of overlapping at the break points Reinforcing iron is made. 5098 1 9/00 89