DE3902727A1 - Glass-fibre-reinforced, resin-bedded roof bolt - Google Patents

Abstract

A resin-bedded bolt consisting on the whole of a glass-fibre-reinforced tube can be effectively used as a tension element by the tube being slit crosswise at both ends and by a tapered expanding mandrel with concentric inner bore being inserted into these slots. This expanding mandrel and the glass-fibre-reinforced tube are surrounded by a taper sleeve which has an inner wall conforming to the outer wall of the expanding mandrel, in which arrangement they run parallel to one another in a transition area so that a considerable amount of force can be applied. At the free end, the taper sleeve has a blind hole with a metric internal thread so that a plug-type connection with integrated non-return valve can be inserted and secured, so that adhesive material, i.e. resin, can be injected without great effort. The resin-bedded bolt can be prepared as a unit at the place of use and can then be placed, in which case it can be assembled from few parts and then effectively secured and restrained in the borehole. <IMAGE>

Description

The invention relates to an adhesive anchor with a Pulling element serving GRP pipe, which is open at both ends widened crosswise using a wedge or mandrel is slotted, the end associated with the borehole mouth the GRP pipe is surrounded by a sleeve with an external thread, which serves to receive the anchor nut with spherical washer.

In underground mining and tunneling usually have to the cavities produced are secured by expansion. Where the mountains have sufficient stability or where there are layers where the cavity around giving mountains can be fixed, so-called Mountain anchors used. Tie rods are known, their Anchor rod deep in the borehole by means of an expansion element is set. The other protruding from the borehole At the end there is a thread on which a nut has a Platte, a so-called dome plate against the mountains presses. Instead of the expansion element, it is also known Insert cartridges deep into the borehole, taking over the two-component adhesive contained in the cartridges the anchor rod is then also set deep in the borehole becomes. Care must be taken that the mother is only tightened at the anchor end when the adhesive is intense is mixed and solidified. From EP-A 94 908 it is known to have one instead of a metal anchor rod to use those made of glass fiber reinforced plastic. In addition to the relatively high strength and the low Weight of the anchor rod has the advantage that the anchor rod is not corrodes and has an advantageous force-elongation behavior disposes. The problem with this anchor is apply the thread on or to the GRP pipe on which the anchor screw is moved. From EP-A-01 88 174 a corresponding anchor is known in which a corresponding thread on the end protruding from the borehole is applied. The anchor nut can be attached to this thread  be shifted with spherical washer, so that a bracing of the anchor is possible. The disadvantage is that a relative complex manufacturing effort for the thread necessary is and that special attention to the formation of the thread must be noted, otherwise not the necessary Power transmission is possible. It has also been shown that the thread that is glued to the GRP pipe, high Does not withstand loads, but rather can tear off. Around To prevent such a tearing of the thread is to DE-OS 29 03 694.0 slitting the GRP pipe ends and an insertion of a corresponding wedge is provided, so that the bracing is possible without tearing off the Thread is to be feared. But everything is a prerequisite dings that appropriate wedges attached to both ends otherwise the setting is not sufficient with the security is possible. Another disadvantage is that Resinizing the borehole is theoretically possible, but can only be accomplished with considerable effort. After is also part that an approximately rectangular An order between anchor rod, i.e. GRP pipe and mountain wall is required to properly tighten the To allow spherical washer over the anchor nut. in the the rest of the wedge is provided with such a slope, that a pushing out of the GRP pipe during the tensioning process cannot be ruled out. The working speed of such an anchor is therefore necessary Tool life not guaranteed.

The invention has for its object a Building simple, the necessary power transmission from the Anchor screw on the GRP pipe with comprehensive securing adhesive to create anchors with a defined adhesive area.

The object is achieved in that the wedge on the anchor head is a conical expanding mandrel with a central inner bore, the outer wall of the expansion thorns  and the inner wall of the conical sleeve correspondingly conical and parallel in the transition area to the borehole side running to the inner bore and with the GRP pipe are glued and that the externally threaded cone sleeve at the free end of a centrally arranged blind hole with metric internal thread.

Such an adhesive anchor can practically work in the factory for days manufactured or put together only underground and cut to length according to the conditions of use. The Injection media can then be introduced to the adhesive anchor downhole, i.e. to stick there. For the radial symmetrical application of force to the wedge effect The resin serves transverse forces in the gaps created then as a connecting means so that the desired uniform Transfer of forces from the anchor screw into the GRP pipe is guaranteed. By cutting to length on site, the Ver work much easier, but also beyond an optimal adaptation to the respective circumstances under Days or in the area of the tunnels possible. It is advantageous further that a precisely defined adhesive area is thereby achieved is that the adhesive material in the exactly understandable Quantity over to be inserted into the blind bore with an internal thread bringing connection is pressed.

After an expedient training of the invention provided that the slots made by splitting formed offset at the ends of the GRP pipe are. This prevents continuous splitting, that otherwise occur especially with shorter anchors could if the slots are exactly covering at both ends  would be introduced. The ability to withstand high pulling forces is always guaranteed, despite slitting, especially since the resin surrounding the GRP pipe at the head and foot anchor a further spreading over the desired area prevented beyond.

To this continuous transmission also in the endbe To ensure rich of the GRP pipe, the invention provides before that the cavities in the area of the taper sleeve / expanding mandrel and slotted GRP pipe are filled with resin. This Filling takes place before or shortly after the on bring the adhesive anchor into the borehole, so that the exact Seat and the favorable introduction of force to achieve and to guarantee.

The insertion of the expanding mandrel into the slit GRP pipe is facilitated and precise positioning secured within this area by the tip of the expanding mandrel has a smaller outer diameter than that Has inner bore of the GRP pipe. This allows the Expanding mandrel optimally inserted and then after appropriate Stretching the end area also fixed there as described be so that an optimal fixation within the cone sleeve is guaranteed. This is particularly the case if the outside diameter is above the transition area the inner bore of the GRP pipe, because then in the parallel areas an exact force transmission possible is. The inner wall of the expanding mandrel and that through the Expanded mandrel blown-open GRP pipe are in this Area trained to match the favorable force secure introduction.

The blind bore with internal thread at the free end of the Tapered sleeve enables the connection of different parts, especially those that involve the injection by means of serving. To this end, the invention provides that the sack bore in the taper sleeve a plug connection with integrated  Check valve is assigned. Via the check valve it is ensured that the adhesive material once pressed in does not flow back when the pump is switched off. This is particularly advantageous wherever the corresponding holes and then the anchors with inclination pushed upwards or vertically into the mountains.

A precise fit and a cheap introduction of force the forces applied via the anchor nut are secured, by the anchor nut on the side facing the borehole spherical and corresponding to the inner ring of the Dome disk is formed and on the opposite the side has a standard hexagon. The Hexagon allows you to move the Anchor nut and thus tensioning the anchor while about the special training of the anchor mother on the one hand and the inner ring of the spherical cap on the other hand an arrangement of the interior deviating from the right angle rings or the spherical cap to the anchor itself without further notice is possible.

The largest possible angle can be between the mountains wall and the anchor inserted if, as provided according to the invention, the spherical cap a wedge on the side facing the borehole or mountains has shaped recess, the wall at full Ab Angle of the GRP pipe runs approximately parallel to the GRP pipe. This makes the adhesive of the invention versatile anchors advantageously expanded, in particular, the force Transmission can still take place safely even when the anchors in its transverse axis, the mother is completely different from the Mountain wall runs.

The exact introduction of the injection agent via the entire length or only in certain sections of the entire GFK anchor is possible without problems, because fiction  according to on the GRP pipe distributed over the length of flexible Material existing sealing rings with reset protection are arranged. These sealing rings make it possible GRP pipe into the borehole as far as necessary and possible to insert it, it is then already through the sealing rings is reasonably positioned in the borehole. About you tion rings is then the breaking in or fixing the Injection agent in the borehole or in the entire borehole environment possible, depending on the arrangement and training the sealing rings can be ensured that, for example only the anchor head is glued in while the anchor pipe over the entire length otherwise without appropriate cladding exercise in the borehole.

To the reset lock for the sealing rings achieve, the invention provides that the sealing rings have a conical outer wall, which from the highest point to the ring bore jumps back at an angle running. This gives you a kind of nose, which is the unbe knew or unwanted withdrawal of the entire anchor would stick out of the borehole like barbs so that pulling out only after overcoming certain forces of the anchor would still be possible. It is also for this possible that the sealing rings one towards the borehole deepest protruding stiffening element or an ent have speaking coating. Also through a coating tion, for example armor of the conical exterior A reset safety device can be achieved that Sealing rings at the same time makes positioning aids.

Due to the use of several such seals rings, it is possible to create a precise gluing area what it is beneficial if one of the sealing rings for specifying the anchorage length at the appropriate distance is arranged to the anchor tip. By positioning of the sealing ring, the adhesive area is then precisely pre-selected  give, depending on the composition of the injection expediently also several such you tion rings can be arranged one behind the other.

To set the adhesive anchor overall in the borehole must have a kind of abutment at the upper end of the GRP pipe be created, which thereby achieves according to the invention is that in the slots of the anchor tip one the outside through Cross wedge corresponding to the diameter of the GRP pipe is shaped, the lamellae adapted to the width of the slots are. This makes it possible with relatively little effort ensure that after insertion or during insertion of the injection medium into the intended area penetrates, there the corresponding upper end of the GRP pipe sets, so that then the anchor screw necessary forces can be initiated.

This is done in a simple and convenient manner ensured that the injector also introduced safely reaches the areas where there is sticking and Fixing the GRP pipe is required, namely by that on the anchor tip with cross wedge a four guide walls having guide cap is placed centrally. over this guide cap is first prevented Drill cuttings or other small material in the inner bore of the GRP pipe falls in and on the other hand the outflowing Adhesive material or the injection agent from the borehole deepest out in the direction of the mouth of the borehole specify the desired adhesive zone and set it precisely. For this purpose, there is a corresponding guide on the anchor tip cap placed over the four guide walls with the GRP Tube is glued. is in the center of the guide cap a center bar acting as a spacer to the cross wedge, see above that the discharge of the injection agent is always guaranteed.

An effective closure against the borehole wall  is achieved in particular in that the guide caps a conical tip with flexible sealing on the edge have lip. This sealing lip lies close to the borehole wall and prevents, even if a certain Distance between the guide cap and the borehole wall must be observed, the passage of injection rather the flexible sealing lip on the borehole wall presses and thus ensures that here an effective Conclusion is observed.

Instead of a cross wedge, it is also possible to use the The anchor tip is an expanding mandrel with a central inner bore assign to in this way the targeted on spread the GRP pipe to achieve and at the same time To direct leakage of the injection agent, which is why expediently also ent on the anchor tip speaking guide cap there.

There are several places along the length of the GRP pipe Sealing rings provided. When you push Injek displaced air must then easily can be dissipated even if the sealing rings are tight rest on the borehole wall. This is possible that the sealing rings ver parallel to the ring bore running vent holes of small diameter out are prepared. The injection agent should be in the area of the sealing rings penetrate, so it would be the vent holes due to their design and the shape of the seal rings quickly clog so that this is the desired and can fully fulfill the necessary sealing function.

An extension of the connection assigned to the anchor head is possible by using extension pieces in the blind hole are screwable and a ent at the opposite end have their own speaking blind bore.

The invention is characterized in particular by that an adhesive anchor is created that is easy to manufacture, even manufactured and completed underground at the place of use can be and still an optimal force transmission from the anchor screw into the GRP pipe. Through the  special design of the expanding mandrel and the conical sleeve as such is even guaranteed that so far not at all achievable high forces can be initiated. Advantageous is further that the tapered sleeve according to the invention without Problems with a quick connector or quick connector can be provided, using appropriate plug-in clips an effective determination is made, which also includes the introduction of Injection agent with high pressure readily allows. After this Gluing the anchor can the plug connector for the Injection are unscrewed. To extend the cone sleeve can be an extension in the blind hole of this Screw in the piece, which has the same external thread as the Tapered sleeve itself and on which tunnel or gallery internals can be hung. Finally, it is still on note that due to the special training of the anchor screw and the calotte washer always an accurate introduction of forces is possible, even when anchors and calottes disc cannot be at right angles to each other. In addition, depending on the use of the adhesive anchor Adhesive area can be specified precisely, so that an effective Anchor expansion achieved in this way and ver can be provided.

Further details and advantages of the subject matter of the invention result from the following description of the associated Drawing in which a preferred embodiment with the necessary details and individual parts are shown. Show it:

Fig. 1 is an adhesive anchor in longitudinal section, partly in side view,

Fig. 2 shows a cross-section of GRP tube and expanding mandrel,

Fig. 3 is an expanding mandrel in longitudinal section;

Fig. 4 shows a sealing ring in longitudinal section;

Fig overhead view. 5 the sealing ring according to Fig. 4 in front of,

Fig. 6 shows a sealing and fixing ring in section,

Fig. 7 view of the sealing and fixing ring in pre-header,

Fig. 8 shows the sealing and fixing in rear view,

Fig. 9 Spherical seat disk in section,

Fig. 10, the anchor nut in section,

Fig. 11 is an extension piece in section,

Fig. 12, the Kegelbülse in section,

Fig. 13 the upper end portion of the adhesive anchor that is inserted into a borehole,

Fig. 14 shows a guide cap in longitudinal section;

Fig. 15, the guide cap in cross-section,

Fig. 16 is a cross wedge in side view and

Fig. 17 the cross wedge in front view.

The adhesive anchor ( 1 ) shown in FIG. 1 is shown in the upper and lower end region, namely in longitudinal section, in order to be able to clarify the details better. The area in between is represented exclusively by the GRP pipe ( 2 ), so that it can be omitted here. The GRP pipe ( 2 ) has a continuous inner bore ( 3 ), so that injection is easily possible.

In the area of the lower end ( 4 ) of the GRP pipe ( 2 ), this is provided with a total of four slots ( 5 ) in order to be able to insert an expanding mandrel ( 7 ), as shown in section in FIG. 1.

The expanding mandrel ( 7 ) has a central through-going inner bore ( 8 ), the tip ( 9 ) of the expanding mandrel ( 7 ) having a smaller diameter than the inner bore ( 3 ) of the GRP pipe ( 2 ). The expanding mandrel ( 7 ) is conical in the direction of the borehole. The wall ( 12 ) of the expanding mandrel ( 7 ) thus runs approximately wedge-shaped.

By inserting the expanding mandrel ( 7 ) into the GRP pipe ( 2 ) provided with slots ( 5 ), the latter is pressed apart, this being limited by the conical sleeve ( 14 ) which is pushed onto the end of the GRP pipe ( 2 ) . The inner wall ( 15 ) of the tapered sleeve ( 14 ) corresponds to the outer wall ( 11 ) of the expanding mandrel ( 7 ). This results in an approximately parallel course in the transition region ( 10 , 16 ) and thus a favorable radially symmetrical force line when unscrewing and tightening the anchor nut ( 18 ), which pushes forward on the external thread ( 17 ) of the tapered sleeve ( 14 ).

The anchor nut ( 18 ) with its thread ( 55 ), which will be explained later, is supported on the correspondingly curved spherical washer ( 19 ), which rests on the opposite side of the mountain.

At the free end of the tapered sleeve ( 14 ), a blind hole ( 21 ) is made, which has an internal thread, namely a metric internal thread ( 22 ), so that plug connections ( 23 ) or extension tubes can be screwed in easily here. In particular, the plug-in circuit, which is illustrated in Fig. 1, has an advantageous effect when the grouting material, ie the resin material, is to be introduced underground. In the plug connection ( 23 ), a check valve ( 24 ) is in fact formed, which prevents a return of the adhesive material or injection means once introduced. The check valve ( 24 ) has a ball ( 25 ) which is loaded via the spring ( 26 ) in such a way that the check valve ( 24 ) only opens when injection medium with the appropriate pressure is introduced. The sealing and fixing ring ( 27 ) ensures a sealing connection between the tapered sleeve ( 14 ) and the plug connection ( 23 ), for which purpose it usually consists of flexible material.

It has already been explained above that the anchor nut ( 18 ) and spherical washer ( 19 ) have correspondingly curved areas to enable the two parts to be displaced relative to one another. Corresponding spherical surface is designated by ( 29 ) on the anchor nut ( 18 ), this surface corresponding to the inner ring ( 30 ) of the spherical washer ( 19 ) so that a relative movement of the two parts relative to one another is possible. The anchor nut ( 18 ) has a commercially available hexagon ( 31 ) at the free end, so that when tightening the adhesive anchor ( 1 ) can be worked with conventional tools. With ( 32 ) the contact surface of the spherical cap ( 19 ) on the mountain is designated, while the subsequent wedge-shaped recess is designated ( 33 ). This recess is wedge-shaped in order to enable correct and optimal transmission of the forces even when the tube is fully bent.

A sealing ring ( 35 ) is pushed in front of the head of the conical sleeve ( 14 ), which prevents the injection agent from flowing back into this area, so that injection agent cannot possibly escape again through existing leaks in this area. The sealing ring ( 35 ) has a special shape, which lends him a resetting device, so that once inserted into the borehole, you can remove the sealing ring ( 35 ) only practically with destruction.

A corresponding sealing ring ( 35 '), as will be shown later, is also arranged in the area, especially the anchor tip ( 36 ), in order to precisely fix or specify the adhesive area.

The upper end ( 37 ) of the GRP pipe ( 2 ) is also equipped with slots ( 38 ) into which a cross wedge ( 39 ) is then inserted, the fins ( 40 ) of which are dimensioned such that their width corresponds to the width of the slot ( 38 ) corresponds.

A guide cap ( 42 ) equipped with guide walls ( 41 ) is placed on the upper end ( 37 ) of the GRP pipe ( 2 ) in order to facilitate the targeted introduction of the injection agent. The guide cap ( 42 ) ensures that the injection agent is safely returned in the direction of the mouth of the borehole, in order to specifically specify the adhesive surface between the guide cap ( 42 ) and the sealing ring (not shown here). Fig. 1 illustrates that the guide cap ( 42 ) has a tip that facilitates the insertion of the GRP pipe ( 2 ) into the borehole and has a flexible sealing lip ( 44 ) at the end or edge, which allows a tight fit against the borehole wall , so that in this edge area the injection agent cannot flow past the guide cap in the direction of the deepest hole.

Fig. 2 illustrates the end region ( 4 ) of the GRP pipe ( 2 ), it being clear that here the slots ( 5 , 46 ) are expanded so far by the expansion mandrel ( 7 ) that corresponding cavities form, which then filled with resin in order to secure an intimate connection beforehand.

Fig. 3 shows the expanding mandrel ( 7 ) in its entire length, it being clear that it is formed from a wedge shape overall, ie the outer wall ( 11 ) and the inner wall ( 13 ) do not run parallel to each other. The entire expanding mandrel ( 7 ) with its wall ( 12 ) has a continuous, central inner bore ( 8 ) through which the injected injection agent can penetrate, and then through the further GRP pipe ( 2 ) to the borehole mouth or to the anchor tip ( 36 ) to be pressed.

FIGS. 4 and 5 show a sealing ring (35) once in section and once in Vorkopfansicht, wherein it is clear that the return lock is achieved here by the slanted coating rings (48). A further possibility of securing against resetting is an arc-shaped outer wall, which is returned from the highest point ( 49 ) to the ring bore ( 53 ) in an arc shape with the formation of a nose ( 50 ). The ventilation holes ( 51 , 52 ) distributed over the circumference enable the displaced air to penetrate through the sealing ring ( 35 ) glued to the GRP pipe.

In the area between the end ( 4 ) of the GRP pipe ( 2 ) and the expanding mandrel ( 7 ) on the one hand and the plug connection ( 23 ) on the other hand, a sealing and fixing ring ( 27 ) is arranged, as can be seen in FIG. 1 . This sealing and fixing ring ( 27 ) is further explained with reference to FIGS . 6, 7 and 8. It is clear that on the one hand a kind of blind bore ( 54 ) ensures an exact fixing of the GRP pipe and an opposite blind bore ( 54 ) ensures an accurate insertion of the spring ( 26 ) of the check valve ( 24 ) so that this ring closes Has also the right to designate the fixing ring.

FIGS. 9 and 10 show again the anchor nut (18) and the Spherical seat disk (19) in single view, in section, being illustrated particularly advantageous when Spherical seat disk (19) that their assigned once to an inner ring (30) having curved walls is, which correspond to the spherical surface ( 29 ), and on the other hand the wedge-shaped recess ( 33 ), which allows the glass fiber pipe to largely pivot to this glass fiber pipe ( 2 ). In the case of the anchor nut ( 18 ), the thread ( 55 ) is illustrated, which corresponds to the external thread ( 17 ) of the taper sleeve ( 14 ).

Fig. 11 shows an extension piece ( 56 ), which is particularly advantageous if the adhesive anchor ( 1 ) once brought in afterwards parts or the like for attaching removal. Things should be used. For this purpose, the extension piece ( 56 ) has a type of blind hole with an internal thread ( 57 ) and, on the other hand, an external thread ( 58 ) as well as the connector ( 60 ) at the opposite end, which screws the extension piece or an injection plug connection into the blind hole ( 21 ) enables. Fig. 12 shows a representation of the taper sleeve ( 14 ) in section, it being clear that the connecting piece ( 60 ) matches the design of the blind bore ( 21 ) so that a screw connection can be easily made here. The extension piece ( 56 ) is equipped with a continuous inner bore ( 59 ) to possibly also allow pressing, for example if for some reason the plug connection ( 23 ) can not be arranged as provided in Fig. 1, but rather that Interposition of the extension piece ( 56 ) is required.

In the embodiment of the cone sleeve ( 14 ) shown in FIG. 12, a thread ( 61 ) is also attached to the inner wall ( 15 ), this thread having, for example, a pitch of 3 mm and a height of 1 mm, so later Pressing in the resin to achieve an effective connection over the entire length. As a result, the cavity ( 62 ), which is predetermined by the thread ( 61 ), is effectively filled with resin and an intensive connection is achieved with a corresponding slope.

Fig. 13 and Fig. 14 to 17 show the upper end portion of the adhesive anchor (1), which is arranged in the borehole (64). The borehole wall ( 65 ) is shown here in a simplified manner as a straight line, this borehole wall ( 65 ) may well be uneven, so that the sealing lips ( 44 ) on the guide cap ( 42 ) are advantageously effective in order to prevent injection agents flows in the direction of the deepest hole ( 66 ). So the area between the guide cap ( 42 ) and sealing ring ( 35 ') can be effectively filled with injection agent, ie resin, so that the adhesive area is effectively precisely specified and fixed.

The guide cap ( 42 ) has guide walls ( 41 ), as shown in FIGS. 14 and 15, with ( 41 ' ) providing a central support which presses approximately on the cross wedge ( 39 ) and thereby additionally fixes it. The cross wedge ( 39 ) is inserted towards the mouth of the borehole ( 67 ) into the slotted GRP pipe ( 2 ). The design of the cross wedge is illustrated in FIGS . 16 and 17.

Claims (18)

1. Adhesive anchor with a serving as a tensile element GRP tube, which is slit crosswise at both ends for expansion by means of a wedge or mandrel, the end of the GRP tube associated with the borehole mouth being encompassed by a sleeve with an external thread which receives the anchor nut Serves with spherical washer, characterized in that the wedge on the anchor head is a conical expanding mandrel ( 7 ) with a central inner bore ( 8 ), the outer wall ( 11 ) of the expanding mandrel and the inner wall ( 15 ) of the tapered sleeve ( 14 ) correspondingly conical and im Transition area ( 10 , 16 ) to the borehole end parallel to the inner bore running continuously and glued to the GRP tube and that the tapered sleeve provided with an external thread ( 17 ) has a centrally arranged blind bore ( 21 ) with a metric internal thread ( 22 ) at the free end having. 2. Adhesive anchor according to claim 1, characterized in that the slits ( 5 , 46 ; 38 ) produced by splitting at the ends ( 4 , 37 ) of the GRP tube ( 2 ) are offset from one another. 3. adhesive anchor according to claim 1, characterized in that the cavities ( 47 ) in the area of the tapered sleeve ( 14 ) / expanding mandrel ( 7 ) and slotted GRP tube ( 2 ) are filled with resin. 4. adhesive anchor according to claim 1, characterized in that the tip ( 9 ) of the expanding mandrel ( 7 ) has a smaller outer diameter than the inner bore ( 3 ) of the GRP tube ( 2 ). 5. Adhesive anchor according to claim 4, characterized in that the outer diameter of the tip ( 9 ) from the beginning of the transition region ( 16 ) is above that of the inner bore ( 3 ) of the GRP pipe ( 2 ). 6. adhesive anchor according to claim 1, characterized in that the blind bore ( 21 ) in the taper sleeve ( 14 ) is a plug-in circuit ( 23 ) with an integrated check valve ( 24 ) is assigned. 7. adhesive anchor according to claim 1, characterized in that the anchor nut ( 18 ) on the borehole ( 64 ) facing side is spherical and corresponding to the inner ring of the spherical washer ( 19 ) and on the opposite side a commercially available hexagon ( 31 ) having. 8. Adhesive anchor according to claim 1 and claim 7, characterized in that the spherical cap ( 19 ) on the side facing the borehole ( 64 ) or mountains has a wedge-shaped recess ( 33 ), the wall of which when the GRP pipe is fully unwound ( 2nd ) runs approximately parallel to the GRP pipe. 9. adhesive anchor according to claim 1, characterized in that on the GRP pipe ( 2 ) over the length of flexible material consisting of sealing rings ( 35 ) are arranged with return locking. 10. Adhesive anchor according to claim 9, characterized in that the sealing rings ( 35 ) have a conical outer wall ( 48 ) which extends obliquely from the highest point ( 49 ) to the ring bore ( 53 ). 11. adhesive anchor according to claim 9, characterized in that the sealing rings ( 35 ) in the direction of the deepest hole ( 66 ) projecting stiffening element or a corresponding coating. 12. Adhesive anchor according to claim 1, characterized in that one of the sealing rings ( 35 ) for specifying the anchoring length is arranged at the appropriate distance from the anchor tip ( 36 ). 13. adhesive anchor according to claim 1, characterized in that in the slots ( 38 ) of the anchor tip ( 36 ) an outer diameter of the GRP tube ( 2 ) corresponding cross wedge ( 39 ) is inserted, the lamellae ( 40 ) of the width of the slots are shaped accordingly. 14. adhesive anchor according to claim 13, characterized in that on the anchor tip ( 36 ) with cross wedge ( 39 ) a four guide walls ( 41 ) having guide cap ( 42 ) is placed centrally. 15. Adhesive anchor according to claim 14, characterized in that the guide cap ( 42 ) has a conical tip ( 43 ) with an edge-side flexible sealing lip ( 44 ). 16. adhesive anchor according to claim 1, characterized in that the anchor tip ( 36 ) is assigned an expanding mandrel ( 7 ) with a central inner bore ( 8 ). 17. adhesive anchor according to claim 9, characterized in that the sealing rings ( 35 ) with parallel to the ring bore ( 53 ) extending vent holes ( 51 , 52 ) are equipped with a small diameter. 18. Adhesive anchor according to claim 1, characterized in that extension pieces ( 56 ) are provided which at one end have a blind bore ( 21 ) comparable internal bore with an internal thread ( 57 ) and at the other end a corresponding to the internal thread ( 22 ) of the blind bore Has external thread ( 60 ).