CH702595B1 - Drilling hole seal and self-drilling anchor with such a Bohrankerdichtung. - Google Patents

Abstract

There is disclosed a drill anchor seal (3) which is completely sealable within an extension sleeve (2) having a central web, at least partially lying in an injection channel (12) of a self-drilling anchor (0) between adjacent anchor rod elements (10, 11). The Bohrankerdichtung (3) should lead to an injection channel (12), which is sealed in the region of the transitions between adjacent anchor rod elements (10, 11) against high injection fluid pressures. This is achieved in that the Bohrankerdichtung (3) in the region of the central web of the extension sleeve (2) can be arranged shoulder portion and at least one in the injection channel (12) protruding neck portion, wherein the Bohrankerdichtung (3) is completely penetrated by a channel.

Description

description

Technical Field The present invention describes a wellbore gasket which is completely sealable within an extension sleeve in the region of a central web, at least partially lying in an injection channel of a self-drilling anchor between adjacent anchor rod elements, and a self-drilling anchor comprising at least one drill anchor gasket fully supported in an extension sleeve.

PRIOR ART In special civil engineering self-drilling anchors are known for a long time, which are mainly loaded on train and initiate forces in deeper soil layers.

These self-drilling anchors are formed from a multi-part anchor rod, comprising a plurality of anchor rod elements, which have as a hollow rod elements extending in the direction of the longitudinal axis injection channel. The anchor rod has an anchor outer thread extending along the circumference. At the in the ground to be lowered first anchor rod element and thus the front end of the anchor rod a drill bit is arranged. With front end in the course of this application, the side of the anchor rod is referred to, which is sunk in the ground, while the rear side or luftseitigem end of the projected hole projecting end of the anchor rod is designated.

The anchor rod and the individual anchor rod elements act as a drill string, wherein at the air-side end of the anchor rod, a drilling device, such as a hammer drill for rotating and / or rotationally driven drilling the anchor rod is fastened. During the drilling and displacement of the anchor rod, an injection fluid, preferably cement or mortar suspension is injected through the axial injection channel, which escapes in the region of the drill bit from at least one injection nozzle in the resulting well, whereby the well filled and the self-drilling anchor is fixable in the well. The drill bit represents a lost drill bit in this method. By using such a self-drilling anchor a desired fixation of the self-drilling anchor takes place in a few operations and in the shortest possible time.

When introducing the anchor rod this is extended by connecting anchor rod elements to achieve the desired drilling depths. From the prior art fasteners are known which have an anchor rod with fluid-tight injection channel.

From DE 3 910 627 a coupling sleeve or extension sleeve is known, which has an internal thread and tapers conically in the region of a central web. The front ends of the anchor rod elements and the rear ends of the adjacent anchor rod elements are firmly bolted in the coupling sleeve and partially cold deformed uncontrollably in the coupling sleeve. The result is a purely metallic seal, which facilitates forwarding the impact energy. But to prevent the so-called seizure of the thread, the end portions of the anchor rod elements must be sufficiently greased within the coupling sleeves. In addition, the thread flanks of the end portions of the anchor rod elements must also be made exactly to achieve a necessary tightness between the anchor rod elements.

Since the front end of the one anchor rod element and the rear end of the adjacent anchor rod element collide directly inside the coupling sleeve metallic, at the high pressures used of the injection fluid of up to 400 bar and even 600 bar, no uninterrupted connection of the adjacent anchor rod elements guaranteed or ., the necessary tightness of the injection channel along the entire anchor rod in the area of the butt joints between adjacent anchor rod elements can not be guaranteed. Since the injection has a milling effect within the wellbore, a reproducible high and constant injection fluid pressure is required. With a pressure drop, the drilling performance is not reduced accordingly.

In further developments, the known extension sleeve was provided with additional sealing washers or O-Rin gene to achieve the required tightness. In addition to the difficult insertion of the sealing washers or O-rings in the extension sleeve, the front and rear ends of the adjacent anchor rod elements must be post-processed and partially chamfered to achieve an optimum seal. In order to obtain suitable ends of the anchor rod elements, therefore, additional steps are necessary, such as turning or lowering, so that the production time of the anchor rod elements increases and increases the cost of manufacturing.

In addition, the sealing washers or O-rings are not on a central web between the cut from both sides of the extension sleeve socket internal threads, whereby the sealing washers or O-rings can even protrude into the injection channel. When installing the sealing washers or O-rings, they can be damaged in the extension sleeve, which reduces the sealing effect.

The present invention has for its object to provide a self-drilling anchor whose directly adjacent arranged anchor rod elements by means of a Bohrankerdichtung and an extension sleeve so ver bindable that the injection channel in the area of the transitions between adjacent anchor rod elements against high injection fluid pressures of sealed up to 600 bar.

Another object of the present invention is to provide a Bohrankerdichtung which guarantees the tightness within the extension sleeve at high injection fluid pressures of up to 600 bar and manages without special processing or post-processing of the end faces of the ends of adjacent anchor rod elements.

This object and in addition to ensuring a simple and reproducible installation of Bohrankerdichtung meets a Bohrankerdichtung with the features of claim 1.

BRIEF DESCRIPTION OF THE DRAWINGS Preferred embodiments of the subject invention will be described below in conjunction with the accompanying drawings.

Fig. 1 shows a partial section through rock, in which a self-drilling anchor is drilled vertically.

FIG. 2 shows a view of a self-drilling anchor comprising an anchor rod consisting of a first and a second anchor rod element, while FIG

Fig. 3 shows a section through a self-drilling anchor according to FIG. 2 with an inventive Bohrankerdich device.

4a, 4b each show a detailed sectional view of a Bohrankerdichtung, each with a neck portion.

Fig. 5 shows a section through a self-drilling anchor, comprising a Bohrankerdichtung with two opposite neck portions and

FIG. 5 a shows the drilling-well seal according to FIG. 5 in a detailed sectional view.

Description: [0014] FIG. 1 shows a self-drilling anchor or injection drilling anchor 0 for use in high-pressure injection molding in special civil engineering with a longitudinal axis L which essentially has a multi-part anchor rod 1. At a first end or at the front end 17 of the self-drilling anchor 0, a drill bit 13 is detachably or non-detachably fastened to a first anchor rod element 10. The drill bit 13 is used here as a lost drill bit 13 and thus as a disposable drill bit 13. The first anchor rod element 10 is detachably connected to a second anchor rod element 11 by means of an extension sleeve 2. Further n-th anchor rod elements can be connected in the same way with the respectively adjacent n-1-th anchor rod element.

With the drill bit 13 in the direction of the advancing direction R of the self-drilling anchor 0 of the self-drilling anchor 0 in the ground or rock is rotatable or rotatable drilled. On a connection side 16, a rotary drilling device and an injection device can be connected. While the rotary drilling device drives the self-drilling anchor 0 in the feed direction R, an injection fluid can be introduced into the borehole by means of an injection device. In Fig. 1, an already drilled self-drilling anchor 0 is shown, wherein the well is already filled with the injection fluid.

The anchor rod elements 10, 11 are designed as hollow rod elements and are penetrated by a parallel to the longitudinal axis L extending injection channel 12, which forms a continuous axial cavity. In order to connect the individual anchor rod elements 10, 11, wherein a possible interruption-free injection channel 12 is ensured, the anchor rod elements 10, 11 are connected by means of extension sleeve 2.

During the drilling of the self-drilling anchor 0, the injection fluid, for example in the form of a mortar or cement suspension at high pressure of up to 600 bar through the injection channel 12 is pressed. In this case, the injection fluid is pressed from the connection side 16 through the injection channel 12 of all n anchor rod elements up to an outlet from the injection channel 12. After passage through the outlet, the injection fluid can escape from at least one radial bore arranged in the drill bit 13, which opens into at least one injection nozzle 131. Thus, injection fluid can be continuously introduced into the wellbore produced by the drill bit during the drilling operation to achieve a mowing action and to fill the resulting wellbore. If an extension of the Selbstbohrankers 0 is required, this can be accomplished by the extension with up to n anchor rod elements between which extension sleeves 2 are arranged accordingly.

The individual anchor rod elements 10, 11 are each provided with an anchor outer thread 15. By suitable design of an internal thread of the drill bit 13, this can be easily attached to the anchor outer thread 15 of the first anchor rod member 10.

The extension sleeve 2 used to extend the anchor rod 1 has a socket internal thread 20, with which the extension sleeve 2 on the Ankeraussengewinden 15 adjacent anchor rod elements is fixable such that the injection channel 12 is continuously formed, with a Bohrankerdichtung 3 of the extension sleeve 2 completely surrounded between the end faces of adjacent anchor rod elements is arranged. When using n anchor rod elements, the extension sleeve 2 is used in accordance between n-tem and n-1 -tem anchor rod element.

The inventive Bohrankerdichtung 3 is completely within the extension sleeve 2, at least partially disposed in the injection channel 12 between adjacent anchor rod elements 10, 11 lying.

The Bohrankerdichtung 3 has a shoulder portion 30 and at least one neck portion 31 and is of a channel 32, which crosses both sections 30, 31, completely penetrated. The outer diameter of the at least one neck portion 31 is made smaller than the diameter of the injection channel 12 of both adjacent anchor rod elements 10, 11, wherein the smallest possible taper of the channel 32 in comparison to the diameter of the injection channel 12 is advantageous, so that the injection fluid as unhindered through the channel 32 of the drill anchor seal 3 can flow. The walls of the at least one neck portion 31 may be cylindrical or conically shaped as shown in the figures.

The shoulder portion 30 has a front-side abutment surface 300, the normal in the direction of drill bit 13 has, to which the end face of the first anchor rod member 10 is touching screwed resting. On a rear abutment surface 301, pointing counter to the feed direction R, the end face of the second anchor rod element 11 can accordingly rest on the drill anchor seal 3. The neck portion 31 is preferably approximately parallel to the wall of the first anchor rod member 10 in the injection channel 12 can be arranged projecting, as shown in FIGS. 4a and 4b, wherein injection fluid is pressed in the feed direction R. But it is also an arrangement according to FIG. 3 possible, wherein the neck portion 31 projects into the injection channel 12 of the second anchor rod member 11 partially. Experiments have shown that both types of alignment of the drill anchor seal 3 seal sufficiently.

Since the socket internal thread 20 is made by tapping from both sides of the extension sleeve 2 and the sleeve internal thread 20 offset from each other, a thread-free center bar 21 remains through this thread-free center bar 21 ensures that the anchor rod elements 10, 11 after screwing in the extension sleeve 2 during rotation of the Selbstbohrankers 0 during rotation not rotatable and thus linearly displaceable.

The shoulder portion 30 of the Bohrankerdichtung 3 comes to rest in the region of the central web 21 within the extension sleeve 2 and closes flush with the central web 21. Due to the tight fit of the end face of the second anchor rod element 11 on the rear abutment surface 301 of the shoulder portion 30, leakage of the injection fluid at high pressures can be avoided. By choosing a deformable material for the Bohrankerdichtung 3, the shoulder portion 30 during the screwing of the anchor rod elements 10,11 slightly deformable in the direction of the central web 21, whereby a further sealing effect results.

In order to additionally oppose the injection fluid as low as possible resistance in the transition from the injection channel 12 to the channel 32, the walls of the Bohrankerdichtung 3 of the shoulder portion 30 and / or the neck portion 31 may be designed according streamlined. For this purpose, the rear abutment surface 301, for example, as shown in Fig. 4b, be rounded, so that the injection fluid is directed into the channel 32.

In a further embodiment of the Bohrankerdichtung 3, a shoulder portion 30 is provided which opens into two neck portions 31,31 '. While the shoulder portion 30 outside the end faces of the first and second anchor rod member 10, 11 is disposed completely within the extension sleeve 2 and flush with the central web 21, a neck portion 31 protrudes into the first anchor rod member 10 and the further neck portion 31 'in the second anchor rod member 11. Here, too, the end face of the second anchor rod element 11 is flat on the rear abutment surface 301 and the end face of the first anchor rod element 10 flat on the front abutment surface 300 of the shoulder portion 30. The outer diameter of the shoulder portion 30 corresponds to the inner diameter of the central web 21 and by screwing the anchor rod elements 10,11 the Bohrankerdichtung 3 is deformed in the region of the shoulder portion 30, whereby a further sealing effect results.

The drill anchor seals 3 according to the invention all have at least one neck section 31 which can be arranged projecting into the injection channel 12 of the self-drilling anchorage 0. In the region of the central web 21 within the extension sleeve 2, the injection channel 12 is continued via the butt joint between adjacent anchor rod elements 10, 11. The end faces of the anchor rod elements 10, 11 do not touch each other in the screwed position or possibly touch only minimal with conically executed walls, so that the injection fluid from the end faces spaced at the butt joint is passed sealed by the Bohrankerdichtungen 3 completely crossing channel 32.

Experiments have shown that the Bohrankerdichtung 3 all embodiments, for example, made of light metal or flexible soft metal alloys or suitable deformable plastic materials can be produced. Aluminum, which is sufficiently soft and corrosion-resistant, has proven itself. Due to the elasticity of a desired deformation when screwing the anchor rod elements 10, 11 can be achieved, resulting in an additional sealing effect. When selecting the material, the elasticity and the corrosion resistance of the materials must be taken into account in order to achieve maximum tightness of the drill anchor seal 3 at injection fluid pressures of a few hundred bars.

The Bohrankerdichtung 3 can be introduced in the extension of the anchor rod 1 in the injection channel 12 or even embossed for positive and / or non-positive connection in the injection channel 12 before the end faces of the anchor rod elements the Bohrankerdichtung 3 pressed on both sides between the anchor rod elements within the extension sleeve. 2 keep screwed in place.

By using the inventive Bohrankerdichtungen 3 is a processing of the end faces of the anchor rod elements 10, 11 is not required. The front-side abutment surfaces 300 and the rear abutment surfaces 301 can be designed simply flat, so that the easy-to-produce planar end faces of the anchor rod elements 10, 11 can lie flat on one another.

REFERENCE SIGNS LIST 0 Self-drilling anchor / injection anchor 1 anchor rod 10 first anchor rod element 11 second anchor rod element 12 injection channel 13 drill bit at the front end of the anchor rod 131 injection nozzle 15 anchor outlet thread 16 connection side 17 front end 2 extension sleeve 20 female internal thread 21 middle bar 3 Bohrankerdichtung 30 shoulder section 300 front stop surface 301 rear stop surface 31.31 'Neck section 32 Channel L Longitudinal axis Ft Feed direction

Claims (11)

claims 1. Drilling hole seal (3), which is completely within an extension sleeve (2) with a central web (21), at least partially in an injection channel (12) of a self-drilling anchor (0) between adjacent anchor rod elements (10, 11) arranged sealingly, characterized in that the drill anchor seal (3) has a shoulder section (30) which can be arranged in the region of the central web (21) of the extension sleeve (2) and at least one neck section (31) which projects into the injection channel (12), the drill anchor seal (3) being of a Channel (32) is completely interspersed. 2. Bohrankerdichtung (3) according to claim 1, characterized in that the walls of the at least one neck portion (31) are cylindrical or conical. 3. Bohrankerdichtung (3) according to claim 1, characterized in that the at least one neck portion (31) is formed such that it at least partially insertable into the injection channel (12) of the self-drilling anchor (0) and / or in the injection channel (12) can be fixed. 4. Bohrankerdichtung (3) according to claim 1, characterized in that the shoulder portion (30) of the Bohrankerdichtung (3) has a front abutment surface (300) of an end face of the first anchor rod element (10) and a rear abutment surface (301) of an end face of the adjacent second Anchor rod element (11) facing, with which the anchor rod elements (10, 11) sealingly fitting by means of extension sleeve (2) are screwed. 5. Bohrankerdichtung (3) according to claim 4, characterized in that the rear abutment surface (301) on the shoulder portion (30) for deflecting injection fluid in the direction of the center of the injection channel (12) is rounded or curved. 6. Bohrankerdichtung (3) according to claim 1, characterized in that the Bohrankerdichtung (3) is made of a corrosion-resistant metal alloy, in particular a light metal, in particular aluminum. 7. Bohrankerdichtung (3) according to claim 1, characterized in that the Bohrankerdichtung (3) is made of a plastic. 8. Bohrankerdichtung (3) according to claim 1, characterized in that the Bohrankerdichtung (3) is integrally formed. 9. Self-drilling anchor (0), comprising at least one completely in an extension sleeve (2) with a central web (21) mounted Bohrankerdichtung (3) according to one of the preceding claims, which adjacent anchor rod elements (10, 11) interconnected, wherein the Bohrankerdichtung (3 ) at least partially in an injection channel (12) of the Selbstbohrankers (0), the Bohrankerdichtung (3) arranged in the region of a central web (21) of the extension sleeve (2) arranged shoulder portion (30) and at least one projecting into the injection channel (12) Neck portion (31) and the Bohrankerdichtung (3) by means of the extension sleeve (2) is releasably connected and the injection channel (12) between the anchor rod elements (10, 11) on the butt joint continuing through the channel (32) of the Bohrankerdichtung (3) is. 10. Self-drilling anchor (0) according to claim 9, wherein the Bohrankerdichtung (3) is designed such that the neck portion (31) of the Bohrankerdichtung (3) to the front end of the Selbstbohrankers (0) and thus in the feed direction (R) of the Selbstbohrankers (0 ) is pointing. A self-drilling anchor (0) according to claim 9, wherein the drill anchor seal (3) has a shoulder portion (30) which merges into two neck portions (31, 31 '), a neck portion (31) into the injection channel (12) in the first anchor rod member (10) and the further neck section (31 ') projects into the injection channel (12) of the second anchor rod element (11).