SE1750417A1 - Strengthening Organs - Google Patents

Abstract

The present invention relates to a reinforcing member intended for insertion and fixing in a borehole (2) by being cast with casting compound (4) and comprising a bolt rod (5) provided with a pull section (7) intended to extend out of the borehole, and an elongate intermediate section (8) and an end section (9) intended to be inserted into the borehole, a clamping nut (13) intended to be mounted on the tension section (7) of the bolt rod, the bolt rod having engaging means (6) intended to cooperate with the casting mass, said engaging means (6) being formed as a thread (11) along the entire length of the bolt rod (5), the part of the thread (11) which is arranged along the tension section (7) of the bolt rod being arranged for receiving the clamping nut (13) .Published with Fig. 1

Description

TECHNICAL FIELD The present invention relates to a reinforcing member for insertion and fixing in a borehole according to the preamble of claim 1. Background It is well known to reinforce rock material with reinforcing means such as rock bolts of various kinds. Usually the reinforcing member consists of an elongate rod of solid material provided with engaging means, cams, intended to cooperate with the casting mass in a borehole, an outer end, a pull end, which is provided with a thread for cooperating with a nut and an inner end, an anchoring end provided with an anchoring wedge intended to abut against the bottom of the borehole.

A type of dynamic rock bolt is usually manufactured on the basis of a solid rolled iron bar of the rebar type. The future pull end on the rock bolt undergoes a material peeling process. In the cold state, a thread is then rolled on the rod end to form a threaded pull end. The threaded pull end of the final bolt thus obtains a diameter which is smaller than the diameter of the load-bearing bolt body. The pull end of the thread thus becomes weaker and has a lower load-bearing capacity than the rest of the bolt, which is not equipped with a thread.

Another type of dynamic rock bolt is manufactured based on a round bar. Chambers are manufactured in different places along the round bar by cold pressing the bar and deforming the material into combs.

In the manufacture of the rock bolt, the other end of the iron bar, the future anchoring end, is also machined, for example by cross-sawing with two longitudinal sections a short distance along the end portion, the end portion being divided into four uniform segments intended to diverge out the bar. Thereafter, a wedge-shaped member is inserted between the segments formed thereby and fixed by spot welding at at least two points.

Although the manufacture is intended to provide dynamic rock bolt with high load-bearing capacity, it has been found that the pull end of this type of reinforcing member does not always meet high strength requirements. In the event of displacements in rock material, the rock bolt is loaded, which is thus stretched and possibly comes off. Bolt breakage means high stress on the drawbar end of the rock bolt and on the clamping nut and washer fitted. At high loads, the pull end does not hold the load, which has the consequence that the bolt can come loose and rock material releases and collapses.

Recently, dynamic reinforcing members with increased load-bearing capacity have become known. Among other things, there are dynamic reinforcing members which are provided with at least one sleeve device on the intermediate portion of the rod which is molded into the borehole. The sleeve-provided portion of the rod can be stretched and the load-bearing capacity is therefore higher for such a dynamic type of bolt than conventional bolts.

However, it has been found that even dynamic rock bolts with threaded draw ends designed in a conventional manner have similar problems as previously described. There is therefore a need for a reinforcing member that can meet today's high requirements for load-bearing capacity and where even the threaded pull end can withstand higher loads. An object of the invention is to provide a cost-effective, i.e. inexpensive, deformation-resistant dynamic reinforcement member.

Another object of the invention is to provide an improved dynamic reinforcement member with a pull end which has a high load-bearing capacity. A further object of the invention is to provide a dynamic reinforcing member which can be immediately adapted for installation in boreholes in order to function optimally in a given rock mass where the elongation capacity of the reinforcing member can be utilized more efficiently.

A further object of the invention is to provide a reinforcing member which does not need to be machined after the initial production of the elongate body of the reinforcing member, the bolt rod.

These objects of the invention are solved by a reinforcing member which exhibits the features and characteristics stated in claim 1. Further advantages of the invention appear from the subclaims.

The reinforcing member according to the invention is advantageous in that the traction end of the reinforcing member obtains a high load-bearing capacity. Another advantage is that the reinforcing member does not need to be machined mechanically, thermally or by bending machining after the initial manufacture to provide the reinforcing member with a single-stranded pull section. Another advantage is that the reinforcing member can be provided with an anchoring wedge in a simple manner, and without extensive work effort if necessary. In the following the invention is described in more detail with reference to the accompanying drawings and the following description of an embodiment of the invention in which: Fig. 1 shows a reinforcing member according to an embodiment of the invention and inserted in a drill heel, and surrounded by casting mass; 2 shows a wedge member in detail.

Fig. 3 shows a sectional view of a reinforcing member according to the invention with an applied tube according to another embodiment. Fig. 1 shows a rock portion 3 and a drill heel 2 received in the rock which extends to a depth which exceeds the extent of the rock materials to be reinforced. A reinforcing member 1, also called rock bolt, is surrounded by casting compound 4, for example cement mortar which is inactivated in the borehole before the reinforcing member 1 is inserted.

The reinforcing member 1 is designed as an elongate cylindrical solid body, single bolt rod 5, with engaging means 6 intended to co-operate with the casting mass 4, the outer rod having a pulling section 7 intended to extend out of the drill heel, and an elongate cutting section 8 and an inner section 9, end, which are intended to be inserted into the borehole 2.

The elongate body of the reinforcing member, the bolt rod 5, is formed of a chambers, a single-bar rod with a low coil content, which gives advantageous elongation properties of the steel, which in the initial production is processed by rolling.

The reinforcing member 1 is intended to be enclosed by the casting mass 4 in the borehole 2, and is therefore formed with engaging means S, in the form of cams 10 formed on the cylindrical surface of the boot rod 5, along its entire length at the initial welding. The engaging member 6 is formed as a three-dimensional helical structure and forms an external circumferential uniform thread 11 along the entire body of the reinforcing member 1.

The thread 11 is given a pitch that is lower than other commonly used standardized thread profiles.

Since the thread 11 of the reinforcing member is formed along the entire elongate body during the initial manufacture of the bolt rod 5, the inner thread diameter then corresponds to the diameter D of the load-bearing boot rod body.

The reinforcing member 1 according to the invention is thus designed as a fully threaded hergbuit of the comb iron type. The engaging member 6 thus fulfills different purposes at different positions along the length of the reinforcing member. Thus it is intended that the part of the engaging member 6 arranged along the pulling section 7 of the reinforcing member protruding from the hollow hole aims to form a thread 11 for receiving a abutment element 12 comprising a clamping nut 13 and the part of the engaging member S arranged along the intermediate section 8 is intended with the casting mass 4 for retaining the reinforcing member of the casting mass.

Since the thread 11 of the reinforcing member is already formed in the manufacture of the elongate body of the huit bar 5, no further refining of the lauit bar material is required to produce a threaded pull section 7 unlike previous known bar bolts. The beer rod 5 of the reinforcing member thus has an unchanged condition from the original production. The reinforcing member 1 according to the invention thus does not require mechanical, thermal or bending post-machining of the bolt rod 5 to provide a threaded tension section 7 intended to receive and form a screw connection with a chip nut 13 by force-fitting cooperation.

Due to the fact that the reinforcing member 1 according to the invention is fully threaded, the length of the pulling section 7 can be varied as required, which entails an increased flexibility and adaptability to different rock materials and reinforcement needs. This avoids that the length of the draw section 7, and the threads 11, do not correspond to the necessary dimensions to achieve high safety.

The reinforcing member 1 according to the invention also comprises an abutment element 12 which is arranged externally an entrance opening 18 for said ear heel 2. The abutment element 12 comprises a provided abutment washer 14 and a clamping nut 13 which cooperates with the reinforcing member's threaded member 11 which is also arranged. include a guide nut 15 provided with the tensioning nut 13 and the mounting washer 12 for guiding the clamping force direction of the clamping nut towards the mounting washer.

The clamping nut 13 is formed with an internal thread 16. The inner thread 16 of the clamping nut is given a thread diameter and swell adapted so that the clamping nut 13 cooperates and engages in the thread 11 of the reinforcing member which is arranged on the pull section 7.

Since the thread 11 of the reinforcing member has a lower diameter than the usual thread, the clamping nut 13 is given an axial extent, a nut height, so that at least three thread turns, preferably five thread turns, on the reinforcing member thread 11 circumferentially of the clamping nut to provide a tightening load-bearing capacity.

Furthermore, the embodiment of the reinforcing member 1 shown in Fig. 1 is provided with an end section 9 of the mounting rod which can be mounted as a member 17. Alternatively, the reinforcing member 1 can also be used without a member. in Fig. 3 2 the body 17 is shown in more detail. The member 17 has a mounting end 13 comprising a cylindrical shaft 20 formed with an internal thread 23 intended to be screwed onto the end section 9 of the boot rod. The internal thread 23 is designed to cooperate with the thread 11 of the boot rod on the end section 9.

The body member also has a jaw end 21 formed with at least two jaw segments 22, optionally terminating into four jaw segments, which are designed to cooperate with the bottom 25 of the borehole by widening when the reinforcing member 1 is forcibly pushed towards the bottom 25 of the borehole.

The mounting end 19 of the member is mounted on the end section 9 of the reinforcing member by screwing, threading, on the threaded end section. This step can be performed immediately before the introduction into the horrhäiet eiier is prepared earlier.

The member 19 has the task of cooperating with the bottom 25 of the borehole and the adjacent rock surfaces and of cooperating with the casting mass 4 in the initial stage in order to retain the reinforcing member 1 in the inserted position. When the reinforcing member is pushed and / or rotated at the insertion, the jaw segments 22 are pressed and extended towards the bottom of the borehole. The jaw member can be screwed on with the jaw segments as shown in Figures 1 and 2.

Alternatively, the ki organ can be turned so that the ki segments point downwards. The key member is then screwed in the opposite direction, the individual key segments being directed downwards towards the reinforcement member itself. idetta fa !! the kiis segments are pressed down against the reinforcing member when this is pushed and / or rotated at the insertion and when anchoring the kiis segments are fixed to the rock surface in the borehole. Both alternatives give the intended effect.

The member 17 described here is very advantageous in that it is easily screwed onto the end section 9 of the mounting beam and directly cooperates with the thread 11 which is extended on the elongated body of the reinforcing member, and thus no separate fastening method such as spot welding is required.

Furthermore, it is shown in Fig. 1 that the elongate section 8 of the reinforcing member 1 is provided with a covering member 27 on a longitudinal section of its cylindrical surface. The outer periphery of the cover member 27! is designed to provide a circumferentially substantially cylindrical mantle! 3G on the elongate section 8. The cover member 27 causes the deformation resistance of the reinforcing member 1 to be improved. preferably the cover member 27 with mantle 30 is formed as a metal tube of stand! but can also be affected by non-electrically conductive matter! such as piast eiier polymer material. The cover member with mantein 30 can also be designed as a rigid piastror. ivied brought! such piastrdr be tiiiverkat by some so-called "Fat" piast exempeivis poiyeten, poiypropen eiiertefion. Other possible matter! is, for example, of some malleable eiast, thin layer eiier fiim, thermopiast, miuk foam, stiff- eiier hard foam such as urethane compost, poiyuretaneiastomer eiier poiyurethane rubber eiier any type of shrink piast.

The cover member 27 with mantein 3G surrounds the reinforcing member 1 and has been given such a thickness that it only slightly exceeds the diameter of the reinforcing member, measured over the threads 11. The latter is shown separately. if Fig. 4 is studied in more detail. In addition, the mantle 30 thus formed will not more than necessary increase the reinforcing member 1 diameter 39 where it along a longitudinal section i. Of the entire length of the section 8, as a barrier, effectively defines the helical radiating outlet member ö of the reinforcing member 1 from contact with the thread . Fig. 3 shows that the cylindrical manhole 3G is designed as a tube 32. The tube is fixed on the outer rod 5, tightly surrounding it. Preferably, the tube 32 is fixed by wedging the ends of the tube onto the body of the reinforcing member. It is advantageous that the material in the sealing member therefore has a certain formability so that germination can be carried out without risk of the pipe breaking.

Preferably, the cover member 27 is provided with a spacing on the elongated section 8 so as to reach the total length of the section 8 so that two sections 34,36 with freely exposed thread 11 are provided on the section 8, see Fig. 2.

Thanks to mantein 3G, the wide portion, the area surrounded by the cover member 27, of the body of the reinforcing member will not come into contact with the casting mass 4, which means that the elongation properties of the reinforcing member are substantially improved in this portion and the resulting reinforcing member ability to absorb deformations in the rock increases. The elongation which occurs upon deformation of the reinforcing member under heavy load will thus substantially occur along the wide portion of the reinforcing member 1 which is surrounded by the mantee 3G. Fig. 21 shows the external part of a crack formation 40 in the rock material 3 which crosses the wide portion of the reinforcing member 1.

In order to act as a receptacle, the rear section 34 and front section 36 of the reinforcing member are fixedly fixed in the bore of the wellbore while the reinforced member 11 of the reinforcing member 11 which here acts as an engaging means which cooperates with the hardened molding portion 4 of the reinforcement member 27. the pouring mass 4 to allow the reinforcing member to stretch freely in this area. the front end section 9 of the reinforcing member, which may be provided with a member 17, is intended to act as an end anchor in the casting mass 4.

Thereby a reinforcing member 1 is obtained which after mounting is firmly anchored in the rock in the bottom 25 and mouth 18 of the borehole, but free from contact with the casting mass 4 along a part of its closed therewith, which means that the molded reinforcing member 1 will be freely deformable along one of its totata closed. In order to further reduce the tendency to adhere in wetted areas in the casting mass 4, the mantle 30 can be tamped to a substantially tight exterior.

It should be understood that the butt bar 5 can be prefabricated and pre-equipped with the cover member 27 after the pipe 32 and the cutter 17 in the factory, alternatively the taut bar can be provided with the cover member 27 after the pipe 32 and thus a bitten mantle 30 on the ptats around the female bar 5. The advantage of applying the cover means to the aftertube as late as possible in the viewing action of the dynamic reinforcement means after immediate insertion into a screw cap 2, is that it makes it possible to adapt each single-piece reinforcement means to a batch of reinforcement means for a specific purpose and the structure of the type intended to reinforce. The reinforcing means can in this case be regarded as a roofing product of hot-threaded comb iron without the mantle, whereby the reinforcing means can be individually adapted for each specific area of use, with a predetermined crack finding in the rock, by being provided with covering means for pipes with a tightly closed area. In one embodiment of the present invention, the surface of the reinforcing member 1 is the butt rod-shaped body surface, treated by surface treatment to avoid at least minimizing rust attack. Rust attack occurs especially along the ctrag section 7 which protrudes from the earlobe. Surfaces are also closed to the saturation section 8 of the rock bottom, which is inserted t the drill bit can be subjected to rust attack as the mite ion t the material may be corrosive. The surface treatment comprises naming the reinforcing member 1 after a portion of the reinforcing member is covered with a number of substances having anti-corrosion properties, for example a surface treatment is carried out by galvanizing ooh / after coating epoxy after thickening. The invention is not limited to what is described above and that shown in the drawings, but can be changed and modified in a number of ways within the scope of the appended claims.

Claims (1)

Reinforcing means (1) for insertion and fixation in a drill bit (2) by being cast with casting compound (4) and comprising a boot rod (5), provided with a pull-out section (7) intended to extend out of the drill bit, and a longitudinal section (8) and an end section (9) intended to be inserted into the drill housing, a clamping nut (13) intended to be mounted on the drawbar section (7) of the outer rod, the outer rod having engaging means (6) intended to cooperate with the casting mass, the area reinforcement means The section (8) is provided with a sealing means (27) intended to release the reinforcing means (1) from the casting mass (4) in order to allow the reinforcing means to stretch freely in this area, characterized in that said engaging means (6) is formed as a thread ( 11) along the length of the extension rod (5), the part of the thread (11) arranged behind the pull section (7) of the outer rod being arranged to receive the clamping nut (13), and the outer rod (5) being formed with the thread (11) ) by welding at the initial projection of the outer rod (5). Reinforcing means according to claim 1, comprising that the engaging means (6) is designed as a three-dimensional spire-shaped structure and provides an external circumferential thread along the body of the outer rod (5). Reinforcing means according to claim 1 or 2, comprising that the tension section (7) has a variable length. Reinforcement means according to any one of the preceding claims, comprising that the cover member (27) is formed in a moldable material so that fastening of the cover member to the reinforcing member can be carried out without the cover member breaking. Reinforcing means according to claim 4, comprising that the covering means (27) is designed as a tube (32) in metal. Reinforcing means according to claim 4, comprising that the covering means (27) is formed in a material which is not electrically conductive, for example piast or polymer material. Reinforcing means according to any one of claims 4-6 comprising that the covering means (27) is fixed to the body of the reinforcing means. Reinforcing means according to any one of the preceding claims, comprising that the clamping nut (13) is designed with a nut content which means that at least three thread turns, preferably five thread turns, are surrounded by the reinforcing member thread (11) by the clamping nut (13). Reinforcement means according to any one of the preceding claims, comprising a member (17) which is mountable on the end section (9), the member having key segments which are directed downwards towards the reinforcing member. Reinforcement means according to any one of the preceding claims, comprising a member (17) which can be mounted by screwing on the end section (9), the member (17) being formed with a housing (29) with internal thread (23) adapted to cooperate with the thread (11) of the reinforcement member. , and at least two expandable cheese segments (22). Reinforcing means according to any one of the preceding claims, comprising at least one part of the reinforcing member vta being formed with anti-corrosion surface layers comprising, for example, zinc and / or epoxy. Reinforcing means (II) according to one of the preceding claims, comprising that the boot rod (5) is formed with the thread (11) at the initial production of the boot rod (5), after which no material-affecting finishing of the boot rod (5) is carried out so that the boot rod has a casting condition. from the original production unchanged condition. Reinforcement means according to any one of the preceding claims, comprising that the cover means (27) comprises a mantle (39) which has a substantially outer surface. -