FI91913B - Fastening means for securing a concrete bolt formed by a bolt to a borehole - Google Patents

Abstract

An anchoring means for anchoring a rock bolt made of concrete steel in a drill hole. The anchoring means comprises a body portion (1) intended to surround the concrete steel (6) and having a longitudinal slit (1a) at one side. The body portion (1) further comprises fixing tabs (4, 5) on the inside and gripping tabs (2, 3) on the outside for gripping the inner surface of the hole. The concrete steel (6) is inserted through the slit (1a) inside the body portion (1) so that the fixing tabs (4, 5) are positioned between the gripping protuberances (6a) of the concrete steel (6) and lock the anchoring means immovably in the longitudinal direction of the steel (6).

Description

Ο Ί G A ~ Z

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Fastening member for fastening a rock bolt formed of reinforced concrete to a borehole

A fastening member for attaching a rock bolt to a bore-5 hole having a body portion around the rock bolt and gripping projections projecting radially from the body portion to be pressed with a tip into the inner surface of the borehole, the body portion having a longitudinal opening 10 when mounted on a rock bolt, and in the body part inside it, fastening projections projecting from the body part towards its center and intended to press against the outer surface of the rock bolt.

When rock bolts are installed, they are soldered to the drilled 15 boreholes with either resin or concrete, depending on the object. In order to install the bolt in the borehole so that it remains there during the soldering process and especially during curing, various fastening methods are used in which the bolt locks into the borehole either at its rock surface end or at its opposite end.

One commonly used fastening solution comprises a wedge at the end of a rock bolt and an associated expansion part, wherein when the bolt is inserted into the borehole, the wedge protrudes into the expansion part, spreading its hole against the surface 35 and thereby wedging the bolt into place. In this solution, the bolt can be slightly prestressed by a nut attached to one end to support the rock to some extent during the hardening of the concrete. Another known fastening method is to wedge the bolt from its hole side end with 30 separate wedges. In this case, the bolt cannot be prestressed, but the rock support is based only on the joint between the bolt and the rock obtained with the hardened concrete.

DE 32 32 417, on the other hand, discloses a solution 35 in which a bolt is fastened in a borehole by means of a separate fastening part forming a fastening sleeve mounted around the bolt 2 91913 and spike-like projections connected to its edge. In this solution, the sleeve is pushed onto the bolt and the protruding parts are bent so that they contact the inner surface of the hole when the bolt is pushed into the drill hole. Because the protrusions are directed to the surface-side end of the hole, they lock the bolt so that it cannot be easily pulled out of the hole, leaving the bolt in place during the hardening of the concrete. The weakness 10 of this solution is that in that solution the protrusions are quite weak and the bolt cannot be prestressed before the concrete has dried, but the protrusions merely hold the bolt itself in place. The fastening member according to the publication is also not as such suitable for use when reinforcing bars are used as bolts 15, since they cannot be fastened to the surface of concrete reinforcements having protrusions.

The object of the present invention is to provide a fastening member for rock bolts which is suitable for the use of various rock bolts and in particular concrete reinforcements 20 and which is easy to install on top of such a rock bolt in the desired location. It is a further object of the invention to provide such a fastening member by means of which the bolt can be reasonably prestressed immediately after its installation before the concrete dries. The fastening member according to the invention is characterized in that it has fastening projections formed obliquely to each other so that one fastening projection prevents the fastening member from sliding in the longitudinal direction of the rock bolt against the pushing direction and the other fastening projections the width of the longitudinal opening of the part is such that a rock bolt can be pushed from said opening into the interior of the body part.

li 91913 3

The essential idea of the invention is that the fastening part of the fastening member is formed by a plate-like part formed around the rock bolt by a suitable arc as a body part so as to have a longitudinal opening on one side, the body part being flexible when mounted on the rock bolt. The essential idea of the preferred embodiment of the invention is that the width of the opening is such that the rock bolt, and in particular the concrete iron used as the rock bolt, can be pushed inside the fastening member. A further essential idea of the invention is that protruding projections protrude from the body part, which are initially wide and taper from the body part towards the tip while being bent so that the diameter of the circle surrounding the tips is larger than the diameter of the hole drilled for the bolt.

A further essential idea of the invention is that the body part has fastening projections directed inside it, which rest against the surface of the rock bolt, locking the fastening member in the longitudinal direction of the rock bolt. The essential idea of the preferred embodiment of the invention is that the gripping spike-20 is at at least two points in the longitudinal direction of the body part. A further essential idea of the preferred embodiment of the invention is that the fastening projections inwardly of the body part are located at at least two consecutive points in the longitudinal direction of the body part, respectively. Another essential idea of a preferred embodiment of the invention is that the fastening member is formed of a plate in which the gripping projections and the fastening projections are formed either by cutting or piercing the plate in a suitable manner and thus bending them in their own direction.

An advantage of the solution according to the invention is that the fastening member can be easily mounted around the rock bolt by pushing it onto the rock bolt from its end or preferably from the side, whereby the fastening member flexibly bends in a preferred embodiment the opening on the fastening member side 35 expands. A further advantage of the fastening element according to the invention is that the gripping projections can be formed to the desired rigidity so that the rock bolt can be prestressed. A further advantage of the fastening member according to the invention is that it is simple and easy to manufacture and thus the operating costs arising therefrom are correspondingly low.

The invention is described in more detail in the accompanying drawings, in which Fig. 1 schematically shows a fastening member according to the invention in the longitudinal direction of a rock bolt, Fig. 2 shows schematically and partially open view a fastening member .

Figure 1 shows a fastening member according to the invention formed by a body part 1 and associated gripping projections 2 and 3 projecting outwards from the body part. It further comprises fastening projections extending inside the curved body part 1, from which the upper fastening projections are shown in the figure. The body part 1 is formed to be curved so that, when in place, it partially surrounds the rock bolt, such as the concrete iron used as the rock bolt. The body part 1 has an opening 1a on one side thereof, the width of which is smaller than the diameter of the rock bolt at the mounting point of the fastening member. In addition, the body part 1 is flexible in such a way that a rock bolt such as be-30 tonal iron can be pushed through the opening 1a inside the body part 1 of the fastening member. The gripping projections 2 and 3 are relatively wide at the end of the body part 1 and taper towards the tip, making them suitably flexible at the tip, but they still remain quite strong and rigid and thus withstand even a relatively large load when installed in a rock hole. Likewise, due to the shape of the gripping projections, the bolt with its fastening members can be inserted into a hole filled with concrete so that the concrete can flow well between the gripping projections due to the larger openings remaining.

The gripping projections 2 and 3 have different dimensions in a preferred embodiment. This is done because its diameter decreases within the drill bit. In this case, the inner diameter of the correspondingly formed hole decreases and the longer gripping projections 2 may bend too much parallel to the walls of the hole, whereby their ability to lock the bolt in place is impaired. Correspondingly, when the shorter gripping projections 3 remain at a larger angle, they in turn take care of the locking and thus the fastening of the bolt 15 is also ensured in connection with the use of differently worn drill bits.

The gripping projections 2 and 3 of the fastening molding also cause the center of the bolt to be centered in a hole, whereby it can be ensured that the concrete 20 or resin used as a solder surrounds the bolt on all sides. This is especially important because the bolt is promoted from groundwater, which causes corrosion in the bolt. When concrete or resin surrounds the bolt along its entire length on all sides, corrosion can be prevented and, as a result, the bolt 25 deteriorating and possibly breaking over time. If it is desired to center the bolt reliably and securely along its entire length, several fastening members can be placed at suitable intervals in the axial direction of the bolt.

Figure 2 shows a closed 30-piece member mounted around a rock bolt, partially open-cut and seen from the side. The figure shows how the upper fastening projection 4 and the lower fastening projection 5 are positioned between the gripping projections 6a on the surface of the concrete iron used as a rock bolt and lock the fastening member 35 to the concrete iron in its longitudinally immobile manner. The gripping projections 2 and 3 are inclined outwards from the body part 1 so that the reinforcing iron with its fastening members can be inserted into the rock hole, the dimension being larger than the diameter of the hole, the projections 2 and 5 3 bending in an inclined position with respect to the inner surface of the hole. When the rock bolt 6 is pushed as far as it will go, it is at the same time locked in the borehole and the projections 2 and 3 press the body part 1 against the rebar, holding the fastening projections between the rebar projections 6a, thus preventing the bee-10 from escaping.

Figure 3 shows a blank according to a preferred embodiment of the fastening member according to the invention, which is formed by cutting a metal plate. In connection with the cutting, the fastening projections 4 and 5 and the gripping projections 15 2 and 3 are at the same time cut at their edges so that they can be bent out of the plate. The fastening member is formed from such a blank by bending the fastening projections 4 and 5 in one direction and the gripping projections 2 and 3 in the other direction with respect to the body part 1, and by turning the body part 1 curved as shown in Fig. 1.

The fastening member according to the invention is simple and inexpensive to manufacture and is very easy to use. Mounting of the fastening member around a rock bolt such as a concrete iron is done simply by pushing it in the transverse direction of the rock bolt, whereby the body part 1 made of suitably thick steel is flexible, allowing the opening 1 to expand to the outside of the rock bolt. Likewise, made of a material of suitable thickness, the gripping projections 2 and 3 and the fastening projections 4 and 5 lock the rock bolt such as rebar so tightly to the inner surface of the hole that the bolt can be pre-tightened to support the rock before the solder such as concrete has hardened.

The invention has been described in the above description and in the drawings only by way of example and is not limited to the embodiment shown merely. The fastening member 91913 7 can be manufactured not only as shown by cutting and bending the sheet, but also by casting or other suitable means, as long as its structure and function are substantially similar. The number of gripping projections may vary from the three shown in Figures 5, as long as they are sufficiently rigid and sturdy. Likewise, the gripping projections may be present in only one longitudinal position of the bolt or there may be more than two consecutive projections. The body part 1 can be bent not only uniformly curved but also slightly angular or otherwise in a suitable shape, as long as it substantially surrounds the rebar as shown in the figures and its fastening projections extend between the protrusions 6b of the rebar surface. The fastening members can be advantageously and easily made of steel or steel plate, but other sufficiently strong materials, such as various metals and alloys, can also be used. The fastening member according to the invention can be used not only in connection with the exemplary rebar, but also with other types of rock bolts, such as rock bolts with a smooth surface, surface bumps or recesses, etc.

When using a smooth rock bolt, it is preferable that the fastening projections are sharply shaped at their tips so that the tips press against the smooth surface of the rock bolt and lock the fastening member thereon. In the case of rock bolts with protrusions or recesses, the sharpness is not essential, but the fastening projections can be blunt or even curved at the tip. The rock bolt can be mounted on the fastening member with the fastening projections suitably shaped at its end, and likewise the fastening member 30 can be twisted to a wider inner diameter due to its longitudinal slot when the rock bolt is pushed from the end into it. However, in the preferred embodiment, the longitudinal opening of the fastening member is so wide that the rock bolt at some point 35 can be pushed in from the side of the fastening member, making the installation of the fastening members 8 91313 along the length of the rock bolt simpler and easier.

Claims (8)

A fastening means for attaching a rock bolt (6) to a drill heel, which fastening means comprises a body portion (1) and radially projected from the body part (1) and radially projected from the body part (1) intended for use with its the tip is pressed into the inner surface of the drill heel, which body member (1) has a longitudinal opening (1a) extending over its entire length, wherein the body member (1) can spring as it is mounted in the rock bolt (6), and which body member (1) 1) on the inside has fastening projections (4, 5) which project from the body part (1) towards its center and are intended to be pressed against the outer surface of the rock bolt (6), characterized in that it has inclined arranged projections (4, in opposite directions). 5), so that one of the fastening projections (5) prevents the fastening member from sliding towards the direction of drive in the longitudinal direction of the rock bolt (6) and the other fastening projections (4) prevent the rocking bolt (6) from sliding in a relative to the fastening means opposite. direction where this 20 f rspänns, and that the width of the body member (1) longitudinal opening (la) is such that the rock bolt (6) can be inserted in the body portion through said opening (la). 2. Fastening means according to claim 1, characterized in that in the longitudinal direction 25 of the body part (1) there are at least three fastening projections (4, 5) substantially at the same place on its different sides and that there are fastening projections (4, 5) at least two in one. spaced apart locations in the longitudinal direction of the body part (1). 3. Fastening means according to claim 1 or 2, characterized in that the gripping projections (2, 3) are at least three in number around the body part (1) on its different sides. 4. Fastening means according to claim 3, characterized in that gripping projections (2, 3) are provided at least two at mutually spaced locations in the longitudinal direction of the body part. 5. Fastening means according to Claim 3 or 4, characterized in that the width of the gripping projections (2, 3) is greatest at the end which lies against the body part (1) and tapered against the tips at the surface of the drill heel. 6. Fastening means according to any one of claims 3 to 5, characterized in that the fastening means have gripping projections (2, 3) of at least two different lengths, such that the longitudinal gripping means (2, 3) in the longitudinal position of the fastening means are of equal length. Fastening means according to any of the preceding claims, characterized in that it is cut by a plate, such that the fastening projections (4, 5) and the gripping projections (2, 3) are fixed at one end to the plate, and such a blank is bent to constitute the body part (1), of which the fastening projections (4, 5) are bent on the inside of the body part (1) and the fastening projections (2, 3) on the outside of the same at the desired angle. 8. Fasteners according to any of the preceding claims, characterized in that the fastening projections (4, 5) are so shaped as to be pointed at the rock bolt (6), so that they engage in the substantially smooth surface of the rock bolt. li