EP1688545A1 - Injection or prestressed anchor for open-air and subsoil constructions - Google Patents

Abstract

The injection anchors has a filling tube surrounded by a fabric. A pair of elements (1,2) consisting of reinforced wires, bars, and or pipes are arranged in the fabric and arranged parallel to each other along an axle of the injection anchor, before the assembly is adjustably positioned. Each pair of element has an end piece at its outside end. The elements are different and the number of which are unequal. The end pieces of the elements are unequal.

Description

The invention relates to an injection anchor or compression body for the transmission of mechanical stresses in buildings in civil engineering, and for introduction into a bore, in slots or similar openings, with a centrally disposed filling hose and at least one surrounding the filling hose fabric stocking.

For attachment of building parts to unsafe surfaces, for the renovation of buildings and for the protection of buildings that are at risk from damage to the mountain, injection or injection anchor are used. These are according to DIN 4125 to components in which by pressing in injection mortar around the rear part of an introduced into the ground Stahlzuggliedes a pressed body is produced, which is connected via Stahlzugglieder and anchor head with the component to be anchored or mountain part.

Another large area of application is the anchoring of damaged masonry or concrete parts in building construction, bridge construction or civil engineering. Injection or injection anchor are also used in tunneling for anchoring the tunnel inner shells, for grouting and for needling of the hanging wall in mining. Such injection anchors are listed, for example, in DIN 4125 and 4128.
If, for example, in certain areas over defined lengths or borehole depths increased load or moment abrasions take place, then the known injection or injection anchors are not or not particularly suitable for this purpose. The known injection or injection anchors are factory-made, so that the borehole depths from which special voltage or load transfers are to take place during armature production must be known, but this raises significant production and storage problems, since these are custom-made. Mass production can not be carried out then.

The invention has for its object to provide an injection or injection molding, which can be adapted to the requirements locally and compiled on the site in a simple manner, mounted and can be used immediately. This preferably relates to the anchor lengths.

The solution of this object is achieved according to the invention in that in the injection anchor or injection body mentioned above at least one pair of elements of reinforcing wires and / or rods, and / or tubes, which are arranged axially parallel to each other in the tissue stocking and along the axis of the Injection anchor are designed to be displaceable prior to assembly, wherein each element of a pair has an end piece at its outer end.

Such injection anchors can be set exactly on the site on site with regard to their length and pre-fix or fix and introduce in this state in the borehole.

The elements of a pair are formed according to the invention the same or dissimilar, so that a large adaptation to the conditions on site and each well can be done.

In a further development of the invention, the pairs of elements are formed differently from each other, so that even with this feature a high degree of flexibility for the desired adjustment is present. The adaptability is further increased by the fact that the number of elements of a pair is unequal.

The end pieces of the elements of a pair are formed as holding elements, hooks, plates, perforated plates, ring elements or limit pieces, which interact to determine the length of a pair in an advantageous manner.

In a further development of the invention, the end piece of an element has a ring closure or bores which slidably receives or receives the respective other element of the pair.

In a further embodiment of the invention, the elements at defined intervals on beads or nubs as stops for length limitation.

In a further modification of the invention, the reinforcing wires and / or reinforcing threaded rods and / or rod and / or extensions are each formed deformed over at least part of their length and have different lengths between each other.

Such injection anchors or compressed bodies then consist of a few conventional elements that can be easily mounted on the site and the circumstances, especially with regard to the required length can be adjusted. Both the compression body length and the adaptation to the expected Stress or load transfer can be produced in a simple manner on site, for example by selecting the number and cross sections of the reinforcing elements to be used.
The meshes of the fabric stockings are designed such that only a small part of the filling material can escape radially, whereby this expands and the lying around the fabric stocking reinforcing wires, rods, tubes or -errirblechstreifen are urged to the outer periphery.
In a further development of the invention, the reinforcing wires and / or rods and / or tubes are advantageously arranged along the axis of the body outside of the inner tissue stocking, which are selectively connected to the fabric of the stocking, such that a positional fixation of the Beweh-elements after the filling of the anchor is guaranteed.
According to the invention, the outer and / or the inner fabric stocking is stretchable, so that an adaptation to the borehole is given, which must be designed according to the loads to be removed or voltages to be displaced. This results in the same basic elements a great deal of scope for an adaptation of the injection or injection molding.

In another embodiment of the invention, the fabric stockings are formed at least in sections as Metallgewirk, whereby the application possibilities are considerably expanded. The knitted fabric is formed, for example, from very thin wires or metal threads, which have an expansion possibility up to 20% of the stocking circumference due to their loop position.

The inner fabric stocking is advantageously slightly shorter than the reinforcing wires, rods, pipes or strakes formed so that the contents flow to the end of the inner fabric tube, there exits undisturbed and inside the outer fabric tube, which at its lower end is closed, flows back until it swells out of the borehole in the region of the filling inlet, whereby it is indicated that the filling of the injection body is successfully completed.

In a further variant of the invention, the wires and / or rods are U-shaped, with their bent parts preferably being arranged at one end of the injection or compression body. The reinforcing elements of the injection or compression body are in its peripheral region. Further advantages of this variant are that the pull-out strength of such a wire or rod bundle is substantially improved.

To further increase the pull-out strength, the reinforcing wires and / or rods and / or tubes are at least partially deformed over at least part of their length. Another variant is that each reinforcing wire and / or rod and / or tube or a group of wires and / or rods and / or pipes at predetermined locations over a predetermined length for the voltage shift or load and / or Moment removal from defined zones has deformations. For example, if load or torque erosion in certain successive areas of different sizes, so can be selected for each area wires, tubes or rods, their strength and number according to the load or torque transfer wherein a wire or bar bundle for load transfer is assembled from a single area, while another bundle of wires, tubes or bars takes over the load or moment removal from another area. This solution has the great advantage according to the invention that the tensile strength of a wire tube or rod bundle can be designed according to the requirements and fully exploited, with this wire or rod bundle no further loads are impressed. Thus, the individual load areas are not affected with each other and a single injection body can thus shift or transfer loads or moments from different areas regardless of other areas.

To increase the pull-out strength, the wires and / or rods and / or tubes are corrugated, similar to a hairpin, and / or twisted, the deformations preferably being provided at the locations and in the areas where the individual loads or moments occur. Advantageously, here additionally steel or glass wool can be drilled.

The injection body according to the invention also makes it possible to improve the filling process by providing an end plate connected to the reinforcing elements or an adapter on the anchor head, which can be connected to a vibrating device, such that the generated mechanical vibrations can be transmitted to the reinforcing elements.

Thus, vibration energy can be brought into all areas of the injection anchor, so that the flowability of the filling material is improved. With the help of this measure can the injection body are made in considerable lengths without problems in the introduction of the contents occur. It can thus anchor lengths of the order of 50 m and more produce. This also has the advantage that such injection body can be made on site.

• Die Figuren 1 bis 15 eine schematische Darstellung des Verpreß-oder Injektionskörpers zur Sichtbarmachung des inneren Aufbaus derselben.
• Die Figur 16 zeigt einen Injektionskörper für ein konisches Bohrloch.

The invention will be explained in more detail with reference to the drawing. Hereby show:

• Figures 1 to 15 is a schematic representation of the injection or injection body for visualization of the internal structure thereof.
• FIG. 16 shows an injection body for a conical borehole.

• Zur Figur 1: 1 und 2 Elemente aus Bewehrungs-Drähten und/oder Stangen und oder Rohre, s Andeutung eines Strumpfgewebes in allen Figuren;
• 3 und 4 Endstücke, die jeweils am Ende eines Elements 1 bzw. 2 angeordnet sind, 7 Umhüllung des Injektionsankers,
• zur Figur 2: 5 ein verstärktes Element mit einem verstäkten Endstück 6,
• zur Figur 3: Elemente 1 aus Bewehrungsdrähten mit entsprechenden Endstücken 3 und 4;
• zur Figur 4: Elemente 1 und 8, wie zuvor, wobei die Elemente 1 und 8 zueinander parrallel angeordnet sind;
• zur Figur 5: Endstücke 9 und 10, welche jeweils einen durchbrochenen Ringschluß aufweisen,
• zur Figur 6: 1 ein Element, 15 Noppen an dem Element 1;
• zur Figur 7: 9 Endstück mit einem durchbrochenen Ringschluß in Kombination mit einem einfachen Endstück 3;
• Figur 8 ; Element 1, besetzt mit Noppen in definierten Abständen, wobei das Element 2 ein definiertes Endstück 16 aufweist;
• zur Figur 9 : zeilweise verstärktes Element 1a mit einem vollständig verstärkten Element 2a;
• zur Figur 10: Endstücke 3 und 4 mit zur Längsachse des Verpresskörpers parallel verlaufenden Elementen mit ihren Endstücken 3 und 4, die in einem Bereich 17 eines Materials aus erhärtbaren Stoffen mit plastischen Zuschlägen liegen.
• Zur Figur 11: ähnlich wie Figur 10 mit einem Bereich aus gummielastischen Stoffen, in dem die Endstücke 3 und 4 gelagert sind.
• Zur Figur 12: Ein Federkörper 18 ist zwischen den Endstücken 3 und 4 gelagert.
• Zur Figur 13: es befinden sich Federkörper 19 zwischen den Elementen 1 und 2;
• Zur Figur 14: zwischen den Endstücken der Elemente befinden sich Federkörper 20 und 21, welche untereinander ungleich sind und unterschiedliche Rückstellkräfte aufweisen.
• Zur Figur 15: Der Federkörper besteht aus einer Gasfeder 22, welche vorzugsweise als eine Druckfeder ausgelegt ist.
  Mit Hilfe der Federkörper nach der Erfindung können im Injektionskörper plötzlich auftretende Kräfte bis zur unschädlichkeit aufgefangen und abgepuffert werden.
• Zu Figur 16: Auch für konisch verlaufende Bohrungen lassen sich Injektionsanker 23 ausbilich und stramm an die Bohrlochwandung anlehnen. Hat der Gewebeschlauch seine volle Ausdehnung erreicht und sind im Bohrloch noch Unebenheiten vorhanden, in die das Gewebe sich nicht ausdehnen kann, so kann auch Mörtel durch das Gewebe des Schlauches dringen und die Unebenheiten ausfüllen. Auch dort auftretende Kräfte lassen sich somit vom Injektionskörper gut aufnehmen und verteilen oder übertragen.

In the figures, the following numbers mean the items listed below.

• To Figure 1: 1 and 2 elements of reinforcing wires and / or rods and or pipes, s hint of a sock fabric in all figures;
• 3 and 4 end pieces, which are respectively arranged at the end of an element 1 or 2, 7 enclosure of the injection anchor,
• 2 shows a reinforced element with a reinforced end piece 6, FIG.
• to Figure 3: elements 1 of reinforcing wires with corresponding end pieces 3 and 4;
• to Figure 4: elements 1 and 8, as before, wherein the elements 1 and 8 are arranged parallel to each other;
• to Figure 5: end pieces 9 and 10, each having a broken ring closure,
• to Figure 6: 1 an element, 15 nubs on the element 1;
• to Figure 7: 9 end piece with a broken ring closure in combination with a simple end piece 3;
• FIG. 8; Element 1, occupied with nubs at defined intervals, wherein the element 2 has a defined end piece 16;
• to Figure 9: line-wise reinforced element 1a with a fully reinforced element 2a;
• to Figure 10: end pieces 3 and 4 with parallel to the longitudinal axis of the grout body elements with their end pieces 3 and 4, which lie in a region 17 of a material of hardenable substances with plastic aggregates.
• To Figure 11: similar to Figure 10 with a range of rubber-elastic materials in which the end pieces 3 and 4 are mounted.
• To Figure 12: A spring body 18 is mounted between the end pieces 3 and 4.
• To figure 13: there are spring body 19 between the elements 1 and 2;
• For Figure 14: between the end pieces of the elements are spring body 20 and 21, which are unequal to each other and have different restoring forces.
• To Figure 15: The spring body consists of a gas spring 22, which is preferably designed as a compression spring.
  With the help of the spring body according to the invention suddenly occurring forces can be absorbed and buffered to harmlessness in the injection body.
• With reference to FIG. 16, injection anchors 23 can also be anchored tightly and tightly against the borehole wall for conically extending boreholes. If the fabric tube has reached its full extent and there are still bumps in the borehole, in which the tissue can not expand, so mortar can penetrate through the tissue of the tube and fill the bumps. Also occurring forces can thus be well absorbed by the injection body and distribute or transfer.

Claims (15)

Injection anchor or compression body for the transmission of mechanical stresses in buildings in civil engineering and for introduction into a bore, in slots or similar openings, with a filling hose and at least one surrounding the filling hose fabric stocking, characterized in that at least one pair of elements (1, 2) consists of reinforcing wires and / or rods, and / or tubes which are arranged parallel to each other in the tissue stocking and slidably formed along the axis of the injection body prior to assembly, each element (1,2) of a pair at its outer end has an end piece (3,4). Injection anchor or compression body according to claim 1, characterized in that the elements (1, 2) of a pair are designed to be non-uniform. Injection anchor or compression body according to claim 1 or 2, characterized in that the pairs of elements (1, 2) are designed to be non-uniform with one another. Injection anchor or compression body according to one of the preceding claims, characterized in that the number of elements (1, 2, 8) of a pair is unequal. Injection anchor or compression body according to one of the preceding claims, characterized in that the end pieces of the elements (1, 2, 8) of a pair are unequal. Injection anchor or compression body according to one of the preceding claims, characterized in that the end pieces (3, 4) of the elements of a pair cooperate in determining the length of a pair. Injection anchor or compression body according to one of the preceding claims, characterized in that the end pieces of an element a ring closure or holes ausfweist, which or which receives the other element of the pair slidably receiving or receiving. Injection anchor or compression body according to one of the preceding claims, characterized in that the elements (1 , 2) have beads (15) or nubs (16) at defined intervals as stops for length limitation. Injection or compression body according to one of the preceding claims, characterized in that the reinforcing wires and / or reinforcing threaded rods and / or rod and / or extensions are each formed deformed over at least part of their length and have different lengths with each other. Injection or compression body according to any one of the preceding claims, characterized in that the end pieces (3, 4) of an element pair (1, 2) extend from a space having accesses at opposite ends for the supply of a hardenable substance modified with plastic additives (17) are surrounded. Injection or compression body according to claim 10, characterized in that the plastic additives consist of rubber-elastic substances. Injection or compression body according to one of the preceding claims, characterized in that a spring system (18) is arranged between the end pieces of an element pair. Injection or compression body according to one of the preceded claims, characterized gekeunzeichnet that the spring system consists of at least one pressure acting spring (18,19). Injection or compression body according to one of the preceded claims, characterized in that the spring system consists of several spring bodies (20,21) with different spring constants. Injection or compression body according to one of the preceded claims, characterized gekekzeichnet in that the spring system (20,21) is adjusted such that the injection anchor or Verpreßkörper has a bias.

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