SU1178900A1 - Roof bolt - Google Patents

Abstract

1. ANCHOR MOUNT, comprising a bar and an expansion lock consisting of a truncated cone with a cylindrical base, performed in the form of a sleeve, screwed on the bar, and placed on the conical part of the lock of metal granules, characterized in that, in order to increase the bearing capacity lining, the lock is equipped with additional-; Truncated cones with granules and cylindrical bases, which are loosely attached to the rod and separated from each other and from the main truncated cone by layers of granules, the number of truncated cones n in the lock being determined from the fusion of P sin oc 40Rf dhk p where P is load carrying capacity of roof bolting, kN; 0 - angle of taper of the tapered part of the castle, hail | R is the ultimate strength of rocks for uniaxial compression, MPa; d - diameter of the cylindrical part of the lock, m; h - height of the tapered part of the castle, ff ka, m; k - coefficient of use of the working surface of the castle. 2. Yrap on p, 1, about the t and n and so that the base of the sleeve of the additional truncated cone is made threadless, and the 4 is the conical part of the main and additional Qo truncated cones - | CO rigidly connected between themselves along the sloping cheeks.

Description

1 1 The invention relates to the fastening of mountain pendures, namely to anchor strut supports. The aim of the invention is to provide a bearing capacity. The drawing shows an anchor mounted in a well, a general view. Anchor bolts consist of a metal rod 1 with a circular cross section installed on the borehole with a thread at both ends, a base plate 2, a tension nut 3, a main spreader end 4 with a cylindrical base, additional truncated cones 5 with cylindrical bases, loosely put on the rod 1 and supported on the layers of metal granules 6, with which they are separated from one another and from the main truncated cone D. The main truncated cone 4 at the bottom of the well; 1y is made of two forged cheeks 7 and a cylindrical sleeve 8 with Threaded connection under the post, rigidly connected in one piece, for example, zlekt rosvarkoy. Additional truncated cones 5 consist of the same stamped cheeks 7 and cylindrical sleeves 9, but without thread, the inner diameter of which is larger than the diameter of the rod. Anchor lining set as follows. The bar 1 with the main truncated cone 4 screwed on it is inserted into the well to a predetermined depth. Then, a portion of metal granules is poured into the gap between the wall of the well 1 and the cone cheeks. By moving the bar with a truncated cone along the well, the metal pellets are compacted and thus fix its initial position in the well. The first additional truncated cone 5, which lies on the layer of the main truncated granules, is inserted into the well as a guide. cone 4, and in the gap between the truncated cone and the borehole wall, metal granules are closed in the same dosage. Similarly, the mustache tantalizes the second and subsequent additional truncated anchor bolt cones. At the same time, the same layers of metal granules, located between the truncated cones, provide an equal distance between them, which, depending on the geological conditions, is assumed to be 50-150 mm, with a greater value being assumed for weaker rocks,. In addition, in a layered array for placing additional cones in strong rocks, the distance between them can be controlled by the number of granules being poured. By screwing the nut 3 in a clockwise direction, which rests on the plate 2, together with the rod, the main cone 4 is tightened, with this metal-. The granules 6 are pressed into the walls of the well and at the same time an additional cone 5 is moved upwards, which in turn is wedged by the granules when they interact with the walls of the well. Then, by further tensioning the rod, the second and subsequent additional cones are wedged. The required number of truncated cones is determined from the expression P sin 2 ° C h k where P is the bearing capacity of the anchor support, kN; angle of taper of the conical tensile strength of rocks for uniaxial compression, MPa; diameter of the cylindrical part of the lock, m; height of the tapered part of the castle, m; coefficient of use of the working surface of the castle. This coefficient depends on the diameter of the granules and the strength of the rocks and fluctuates when using granules, for example, 1-3 mm in diameter, from 0.025 in strong rocks to 0.6 in weak rocks, and with a diameter of 1-5 mm, respectively, within 0.45 - 0.8, Thus, the presence of additional truncated cones in the castle allows an increase in the carrying capacity of anchor bolts, which is especially important when using it in weak rocks.

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Claims (2)

1. ANCHOR FASTENER, including. a rod and an expansion lock, consisting of a truncated cone with a cylindrical base made in the form of a sleeve screwed onto the rod and metal granules placed on the conical part of the castle, characterized in that, in order to increase the bearing capacity of the lining, the lock is equipped with an additional; truncated truncated cones with granules and cylindrical bases, which are freely put on the rod and are separated from one another and from the main truncated cone by layers of granules, while the number of truncated cones η in the lock is determined from the expression P sin os ⁿ 40R $ Fdhk "where P is the bearing capacity of the anchor support, kN; oС - the angle of sharpening of the conical part of the castle, degrees; R - ultimate strength of the rocks for uniaxial compression, MPa; d is the diameter of the cylindrical part of the castle, m; h is the height of the conical part of the castle, m; to - the utilization of the working surface of the castle. 2. Fix the pop. 1, characterized in that the base from the sleeve of the additional truncated cone is threadless, and the conical part of the main and additional truncated cones is made of rigidly connected to each other along the generatrix of the inclined cheeks. 1 78900