RU2280166C2 - Anchoring bolt - Google Patents

Abstract

FIELD: mining, particularly to support mine contour.

SUBSTANCE: anchoring bolt comprises thread for nut receiving formed at bolt end and includes load-bearing rod with profiled surface provided with depressions and auger at head end thereof. The rod is made of fiberglass plastics and has support member connected to head end thereof. The support member has auger made of glass-nylon composite. Diameter of bolt end exceeds load-bearing rod diameter in all other sections thereof.

EFFECT: possibility to create anchoring bolt destructible by cutter-loader auger, reduced costs, possibility to secure the anchoring bolt by self-activating method along with functional properties retaining.

5 cl, 3 dwg

Description

The proposal relates to the mining industry, in particular to the fastening of the mine workings.

Known [1] anchor support, including a load-bearing rod with a supporting element with a screw and a tapered tip at the head end, a shank with a thread and a tetrahedral end.

The disadvantage of this anchor lining is that the profile of the load-bearing rod is made smooth. Therefore, most of the load due to the mass of the unstable part of the near-mass array is formed not on the rod, but on the anchor support element. This leads to an increase in the strength of the supporting elements (pickup, washer) of the anchor, an increase in their mass.

The closest analogue in technical essence is an anchor [2], which includes a load-bearing rod with a profile surface having spiral grooves in the left direction with a screw at the head end and a shank with a thread opposite the direction of the spiral grooves.

This solution is successful when performing an anchor made of metal for fastening the roof and sides of the workings from the rock. To fix the coal sides of the workings, the use of a metal anchor is irrational.

The disadvantage of the anchor is that when the coal side is destroyed by the auger of the combine, the steel anchor does not collapse, but only deforms along with coal to the scraper conveyor, then is reloaded onto the conveyor belt. When pouring coal from conveyor to conveyor, a deformed steel anchor can damage the rubber band, which has a high cost, and its repair requires significant labor and time.

The execution of the rod together with the screw at the head end of the fiberglass anchor, which can be destroyed by the combine screw, makes such an anchor very expensive. In this form, the cross section of the rod is enlarged, which requires excessive consumption of expensive fiberglass. Moreover, the price anchor becomes uncompetitive in relation to steel. Due to the high price, it does not find application, therefore, the level of work safety is reduced due to a rupture of conveyor belts by steel anchor rods.

The aim of the invention is the creation of an anchor destroyed by a screw harvester, comparable in price to a steel anchor, fixed with an ampoule method while maintaining functional properties.

This goal is achieved by the fact that in the anchor, having a thread under the nut on its tail and including a load-bearing rod with a profile surface, having recesses, with a screw on the head end of a load-bearing rod made of fiberglass, a support element with a screw made of glass-filled polyamide is fixed and the diameter of the tail of the anchor on the load-bearing rod is fixed made of glass-filled polyamide support element with thread under the nut, and the end of the support element has a cross section in section tiger's form. The diameter of the tail of the anchor is increased by introducing an axial insert into the load-bearing rod, and the nut thread is made directly on the load-bearing rod.

An axial insert along the entire length has been introduced inside the load-bearing rod. The axial insert is made of polyamide, polyethylene or kapron.

The surface of the load-bearing fiberglass rod can be made profile. In this case, the profile surface of the anchor rod is formed by winding with an interference fit on its surface strands of threads with a pitch of 15-20 mm at the moment when the resin has not yet hardened after soaking the glass roving beam in it. Thanks to the tightness, a spiral of strands of polyamide threads squeezes the resin from under the bundle of threads and creates a profile surface of protrusions and recesses necessary for high-quality interaction with the fixing material (mineral composition (MK)). The left direction of the spiral of the recesses is necessary so that when the anchor rotates clockwise (all drilling tools rotate the spindle clockwise), the surface relief of the rod drives the uncured MK ampoule to the bottom of the well to form a dense fixing sleeve without breaking the continuity. This ensures high-quality adhesion of the fixing material in contact with the walls of the hole and with the anchor rod.

To reduce the consumption of fiberglass at the head end of the load-bearing rod, a support element with a screw, made of glass-filled polyamide, is fixed by molding in a mold.

The tail part of the anchor is made of increased diameter, which increases the strength of the thread. In some cases, the increase in the diameter of the tail of the anchor is carried out by placing on the load-bearing rod of the anchor of the support element with a thread of glass-filled polyamide. This increases the moment of inertia of the cross section and, accordingly, its torsion resistance, increases the strength of the thread with a minimum consumption of fiberglass. The end of the supporting element of the tail of the anchor is in the form of a hexagon. The hexagonal shape of the end of the tail of the anchor is necessary for transmitting torque from the drilling machine (through the adapter) to the anchor rod during the installation of the latter by rotation with feeding into the hole, previously filled with ampoules with MK.

In other cases, depending on the length of the anchor, the diameter of the tail of the anchor is increased and the thread is performed directly on the load-bearing rod. An increase in the diameter of the tail of the fiberglass rod with a limited consumption of fiberglass is carried out by introducing into the load-bearing rod of the axial insert of a cheaper, less durable material. In this case, fiberglass concentrically covers the axial insert.

A constructive solution for filling the central part of the load-bearing rod with an insert not of fiberglass, but of a different material, such as polyamide, nylon or other material compared to fiberglass, is necessary to increase the diameter of the load-bearing rod and thread of the anchor shank at a limited interval with a limited consumption of fiberglass, which increases also the moment of inertia of the cross section of the rod and, accordingly, its torsion resistance. With a small anchor length of 1.4-1.8 m, an axial insert made of polyamide is installed in the range of 200-300 mm of the tail of the anchor. With an anchor length of 1.8-2.2 m, the axial insert is installed in the range of up to 500 mm. With an anchor length of more than 2.2 m, an axial insert is installed along the entire length of the anchor, and an additional increase in the diameter of the tail of the thread anchor is carried out due to the polyamide support element cast on the tail of the load-bearing anchor rod. This embodiment of the anchor can reduce the cost of manufacturing the anchor and, accordingly, the price due to the reduction of fiber consumption. The price of a fiberglass anchor becomes comparable to a steel anchor, which ensures its applicability for attaching coal sides of workings and reduces the risk of rupture of conveyor belts.

The design ensures the manufacturability of its application due to the completion of the support element on the hexagonal shank. This design of the tail of the anchor allows you to easily and quickly attach and disconnect it from the drilling machine. The presence of a support element on the tail part of the anchor and on the head end of a less expensive material than fiberglass allows to reduce the price of the anchor. The screw at the head end contains 1.5-2 turns, and the thread on the tail of the anchor is 150-200 mm long.

Analysis of information sources allows us to conclude that the alleged invention meets the requirements of novelty, while achieving a technical result, which is expressed in reducing the consumption of fiberglass and the price of the anchor due to the screw on the head end, not on the anchor rod, but on the supporting element cast at the end an anchor rod made of glass-filled polyamide, by increasing the diameter of the tail of the anchor by introducing the fiberglass rod of the anchor from the less expensive mat Series, as well as by fixing (with the length of the anchor over 2.2 m) on the surface of the anchor rod of the support element made of polyamide with a thread under the nut. This increases the moment of inertia of the cross section of the anchor, which increases the resistance of the anchor to the torque. In addition, by completing the end of the supporting element of the tail of the anchor with a hexagonal cross-sectional shape, the process of connecting and disconnecting the anchor from the drilling machine is simplified.

The essence of the proposal is illustrated by drawings.

Figure 1 shows the axial section of the anchor.

Figure 2 is an axial section of an anchor with an inner insert.

Figure 3 is an axial section of the tail end of the anchor with an internal insert of a limited length.

The anchor consists of a fiberglass-bearing rod 1, on the head and tail of which support elements 2 and 3 are molded from glass-filled polyamide, respectively, a screw 4 in the form of a right screw cast at the same time on the head support element 2, nut 5 screwed on the tail support element 3 With a significant length of the anchor (2.2 m or more) to increase the moment of inertia of the cross-section of the load-carrying rod 1 (Figure 2), the latter concentrically covers an axial insert 6 made of cheaper material, for example polyamide, polyethylene et al. For the transmission of torque from the drilling machine on the rod when it is installed into the hole, ampoules, prefilled with a mineral composition (MC), the end 7 of the support member 3 is made of hexagonal sectional shape. The same sectional shape has the end 8 of the nut 5 for transmitting torque from the drilling machine for screwing onto the thread of the support element 3 with preliminary expansion of the anchor after installing it in the hole. To improve the quality of interaction of the nut 5 with the supporting element of the anchor support (pickup, washer), the end face of the nut is made hemispherical. An increase in the diameter of the shank of the anchor and, accordingly, the thread with the length of the anchor less than 2.2 m is carried out by introducing the fiberglass rod of the anchor of the polyamide insert inside a limited interval (200-300 mm with the length of the anchor 1.4-1.8 m, 500-600 mm at anchor length 1.8-2.2 m). If the anchor is longer than 2.2 m, the insert is introduced over the entire length of the anchor. This, on the one hand, increases the moment of inertia of the cross section of the anchor, on the other hand, increases the resistance of the anchor to shear and, most importantly, the resistance of the anchor to tear and to shear, as as the length of the anchor increases, the load on the anchor increases. The variable profile of the load-carrying rod 1 is made in the form of a left spiral, that is, it has a direction opposite to the screw 4. The left direction of the profile of the load-bearing rod 1 is necessary to seal the MK during rotation of the anchor clockwise, as well as to prevent unscrewing of the anchor. The diameter of the screw 4 is 1.5-2 mm smaller than the diameter of the hole. A small annular gap is necessary to carry out the necessary preliminary expansion of the anchor with an still uncured MK.

An anchor works as follows. After drilling the borehole to a predetermined depth, ampoules with MK are introduced into it. The ampoules are sent to the bottom of the well with anchor 1. Then, by means of an adapter, the shank of the anchor is connected to the drilling machine and, by axial feeding, the anchor is inserted into the ampoules with MK during rotation of the anchor. The ampoule shell collapses when the anchor rotates with the screw 4. When the anchor rotates, the end of the hexagonal shape 7 of the support element 3 receives torque from the drilling machine through the cross-section of the hexagonal profile adapter. After the anchor stops in the bottom of the hole, the feed and rotation of the anchor are stopped. The drilling machine is taken away from the anchor. In this case, the adapter is easily removed from the hexagonal end of the tail of the anchor. Then, a support washer (not shown) or a pick-up is put on the tail part of the anchor, the nut 5 is screwed onto the support element 3 by a drilling machine through an adapter that transmits torque to the nut 5 through its hexagonal end 8. Next, the drilling machine with the adapter is removed from the nut 5. The adapter is easily removed from the nut. Then, the nut 5 is tightened with a wrench, making a preliminary order. With preliminary expansion (1.5-2 tf), the screw of the screw 4 of the support element 2 of the rod 1 of the anchor, moving to the mouth, creates excessive pressure in the MK. Water under the screw is squeezed into the cracks of the array. In the re-compacted MK, interacting with the uneven walls of the borehole and the relief of the anchor, shear resistance arises, which prevents the movement of the anchor, its supporting element 2 with the screw 4. Thus, pre-tensioning without waiting time for the curing of the MK. In the future, MK is cured and interacts with the surface relief of the rod, finally preventing any movement until the anchor rod ruptures.

The proposed design of the anchor allows you to obtain a technical result, expressed in reducing the consumption of expensive material by replacing some of it with less expensive material without losing the basic functional properties of the anchor. The screw 4 of the anchor at the head end is not made on the fiberglass anchor rod, but on the support element of the glass-filled polyamide anchor, the mechanical properties of which ensure the pre-tensioning of the anchor without waiting time for curing and equal to the anchor rod 1 fastening strength in the hole before and after MK curing . The increased diameter of the anchor increases the bearing capacity of the thread. The increase in the diameter of the tail part of the anchor is carried out by casting the support element 3 from a cheaper polyamide, as well as by introducing an axial insert 6 made of polyamide, which is installed on a limited interval or along the entire length of the anchor, depending on the length of the anchor. This increases the resistance of the anchor to torsion, shear, tensile strength.

Information sources

1. A.S. USSR 1073471 A, 02.15.84, Bull. 6.

2. Patent No. 2201506, 03/27/2003, Bull. 9.

Claims (5)

1. An anchor having a thread under the nut on its tail and including a load-bearing rod with a profile surface having recesses, with a screw at the head end, characterized in that a support element with a screw made of a fiberglass is fixed to the head end of the load-bearing rod made of fiberglass from glass-filled polyamide, and the diameter of the tail of the anchor exceeds the diameter of the load-bearing rod in its other sections. 2. Anchor according to claim 1, characterized in that in order to increase the diameter of the tail part of the anchor, a support element made of glass-filled polyamide is fastened with a nut thread, the end of the support element having a hexagonal cross section. 3. Anchor according to claim 1, characterized in that the diameter of the tail of the anchor is increased by introducing an axial insert into the load-bearing rod, and the nut thread is made directly on the load-bearing rod. 4. Anchor according to claim 2, characterized in that an axial insert along its entire length is introduced into the load-bearing rod. 5. Anchor according to any one of claims 3 and 4, characterized in that the axial insert is made of polyamide, polyethylene or nylon.

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