RU205737U1 - Flexible anchor - Google Patents

Abstract

The utility model relates to mining and can be used for fastening or reinforcing the fastening of mine workings, as well as for fastening suspended monorails, blocks and other technical means at the place of installation or dismantling. operational reliability for the required (specified) bearing capacity. A flexible anchor for fixing in holes with a diameter of 20 mm to 50 mm, which is a multiwire bearing rod, on the tail of which a coupling is fixed, which is fixed to the bearing rod using a connecting element in the form of a sleeve with longitudinal section, the length of which is determined by the formula Ise = k⋅dst, where Ise is the length of the connecting element, mm; dst is the diameter of the bearing bar, mm; k is the coefficient for calculating the length of the connecting element, which has a range from 2.5 to 6.

Description

The utility model relates to mining and can be used for fastening or reinforcing the fastening of mine workings, as well as for fastening suspended monorails, blocks and other technical means at the place of installation or dismantling work.

Known combined flexible anchor (patent RU 40392, IPC E21D 20/00, publ. 09/10/2004), including a flexible rod, to one of the ends of which an all-metal pin is attached, a base plate, the rod is made of wire steel rope, and the pin is made of reinforcing rolled products with a screw profile, while their interconnection with each other is carried out end-to-end contact electric welding.

In the known technical solution, there are no broadening nodes on the flexible rod on the head part, and a hairpin is welded on the tail part, such a connection has a low strength, reducing the possible bearing capacity of the flexible rod, which leads to a decrease in the performance of the anchor at high loads.

Known support element of the rope anchor (patent RU 91376, IPC E21D 20/00, publ. 02/10/2010), including a sleeve, in the axial channel of which strands of rope are fixed, a nut placed on the sleeve using a threaded connection, and a guide pipe connected to the end face of the sleeve, the axial channel of the sleeve is cylindrical, and abrasive particles, the hardness of which exceeds the hardness of the sleeve and the strands of the rope, are placed in the surfaces of it and the strands of the rope in contact with it.

In the known technical solution, reducing the consumption of metal when creating such a connection between the rope and the sleeve can reduce the bearing capacity of the anchor with broadening nodes at the head end, it is not clear for which type of head end the sleeve is intended.

Known cable flexible anchor (patent RU 105941, IPC E21D 21/00, publ. 06/27/2011), consisting of a seven-core cable of right or left winding with a wire auger and broadening nodes at the head end, a connecting unit consisting of a cable, a sleeve with a thread and nut, and a wedge, as well as stiffening tubes on the cable at the threaded sleeve, the wire auger is made of wire that covers the cable and passes between the cable strands, the broadening nodes can be created using rings put on the central or outer cable cores, and the connecting assembly consists of from a cable, a threaded sleeve, a double wedge or a wedge-collet, or a sleeve with a tapered surface and a longitudinal cut on the central core of the cable, or a sleeve with a tapered surface and a longitudinal cut, which encloses the cable from the outside.

In the known technical solution, there are no parameters, the ratio of parts for the manufacture of an anchor with the required bearing capacity, technological both in its manufacture and in its operation.

The technical result is to improve the manufacturability of the flexible anchor structure by ensuring operational reliability for the required (specified) bearing capacity.

A flexible anchor for fixing in holes with a diameter of 20 mm to 50 mm, which is a multiwire bearing rod, on the tail of which a coupling is fixed, according to the technical solution, the coupling is fixed to the bearing rod using a connecting element in the form of a sleeve with a longitudinal cut, the length of which is determined by formula

l _se = k⋅d _st ,

where l _se is the length of the connecting element, mm;

d _st is the diameter of the bearing rod, mm;

k - coefficient for calculating the length of the connecting element, ranging from 2.5 to 6.

The broadening units are made on the head part, the broadening unit is formed by at least one ring and / or auger. On the edge of the head part, a bevel is made and / or a destructive element is fixed. The flexible anchor contains a guide tube located on the load-carrying rod, connected to the upper part of the coupling, or a guide tube with a sealing element located on the load-carrying rod, connected to the upper part of the coupling. The outer surface of the coupling is smooth or threaded. The inner surface of the sleeve has a cylindrical bore shape that turns into a conical or conical bore located between the cylindrical bores. The lower part of the coupling in the injection method of fastening has an element through which it is possible to connect to the injection device, in the form of a fastening element or in the form of one of the parts of a quick-release connection. The bushing with a longitudinal section is made in the form of a bushing with a cylindrical surface or in the form of a bushing with a tapered surface, or in the form of a bushing with a tapered surface turning into a cylindrical one, and is installed on the central core of a multi-wire rod or on several cores, or encompass the multi-wire rod from the outside ... For fixing the anchor in holes with a diameter of 20 mm to 50 mm with a sleeve length of 120 mm - 140 mm, the coefficient for calculating the length of the connecting element k ranges from 3 to 4. For fixing the anchor in openings of workings from 20 mm to 50 mm with a sleeve length of 155 mm - 170 mm coefficient for calculating the length of the connecting element k has a range from 3.5 to 4.5.

The utility model is illustrated by drawings, where in FIG. 1 shows a flexible anchor in a borehole with widening nodes formed by rings, FIG. 2 - flexible anchor in the borehole with widening nodes formed by rings and auger (wire); in fig. 3 - the tail part of the anchor, including a sleeve with a tapered surface and a longitudinal section on the central core (wire) of the carrying cable, FIG. 4 - a sleeve with a tapered surface and a longitudinal section for fastening to the central core (wire) of the cable, FIG. 5 is a top view of FIG. 4, FIG. 6 - the tail part of the anchor, including a sleeve with a tapered surface and a longitudinal section on the cable veins, FIG. 7 - a sleeve with a tapered surface and a longitudinal section for fastening to the cores (wires) of the cable, FIG. 8 is a top view of FIG. 7, FIG. 9 - the tail part of the anchor, including the wedge-collet, in Fig. 10 - wedge-collet (sleeve with a cylindrical surface and a longitudinal section), in Fig. 11 is a top view of FIG. 10, FIG. 12 - the tail part of the anchor, including a double wedge, in Fig. 13 - double wedge (two bushings connected to each other).

A flexible anchor with broadening nodes on the head part (Fig. 1, 2) is intended for fixing in holes (boreholes, boreholes) of workings. Most often, an anchor with such a head is used for holes with a diameter of 20 mm to 50 mm when fastened with a fastening compound in an ampoule or injection, or ampoule-injection method.

A flexible anchor with broadening nodes (hereinafter referred to as the anchor) contains a multi-wire bearing rod 1, broadening nodes 2 on its head part, a connecting node on its tail part containing a coupling and a connecting element in the form of a wedge or double wedge (Fig. 12-13), or wedge-collets (Figs. 9-11), or bushings with a tapered surface and a longitudinal section, which encloses the central wire (Figs. 3-5) or a multi-wire load-carrying rod from the outside (Figs. 6-8).

The multi-wire support rod 1 can be made of various materials (metal, polymer, composite, etc.). The most optimal use of a rod is in the form of a multicore cable, which can be made with a right or left lay, in particular, a seven-core steel (metal) cable (rope). The broadening unit 2 can be formed by a ring 3 and a screw 4 or rings and a screw, or a ring, or rings, or a screw. Other versions of the broadening units 2 are possible. Also, the broadening units 2 can be alternated and various combinations can be created. Rings 3 can be put on the central or outer core (wire) of the cable 1, or on the outer cores (wires) of the cable 1, or on the central and outer cores (wires) of the cable 1. They can be made of different materials and have different geometric shape, for example, made in the form of a nut, torus, sleeve, etc. The broadening unit 2 can be fixed, for example, by braiding the veins (wires) of a cable and / or a wire (auger). The screw 4 can be made of wire or wires (tape, strip) and other similar elements of various cross-sectional shapes, made of various materials (for example, steel, polymer, composite). The auger 4 can be made of a wire that surrounds (wraps around) the cable 1 and passes between the strands of the cable 1, forming broadening nodes, or covers the cable 1 with broadening nodes 2 from the outside. The performance of the support is largely influenced by the strength of the anchor fastening, the strength properties of the load-bearing rod, which determine its bearing capacity.

The presence of broadening nodes prevents rapid flow of the fixing compound along the annular gap between the wall of the hole and the anchor rod. Allows you to uniformly mix and compact the anchoring material (towards the bottom of the hole), as a result of which tight stemming of the hole is ensured without breaks in continuity and bubbles, that is, a dense and strong fixing sleeve 5 is formed. an increase in its bearing capacity. In the formed fixing sleeve 5, the uneven contour of the head end created by the broadening nodes 2 and the required number of broadening nodes for a certain load provide resistance to pulling out, twisting of the anchor and reliable adhesion between the fixed elements. Therefore, for reliable and high-quality interaction of the fastening material with the head end of the anchor, it is necessary to have and a certain number of broadening nodes. This makes it possible to improve the quality and strength of the anchor fastening in the hole and to guarantee the specified bearing capacity of the support under various types of loads. The connection can withstand static, dynamic, cyclic loads and help improve the safety of mining operations.

At the edge of the head of the anchor, a destructive element can be located (in the form of elements of broadening, thread, cap, antennae, spiral) and / or a bevel can be made at a certain angle, which make it possible to destroy the ampoule for further mixing with broadening nodes in the ampoule or ampoule-injection method ... The breaking element also makes it possible to reduce the size of the annular gap between the anchor and the walls of the borehole (borehole), contributing to the efficiency of mixing the anchoring materials.

The connecting unit on the tail part (Figs. 3, 6, 9, 12) is formed by a sleeve 6 connected to a cable 1 in its axial hole by means of a connecting element. The most optimal version of the axial bore of the coupling 6 has a cylindrical bore that turns into a conical or conical bore located between the cylindrical bores. The most optimal embodiment of the connecting element is in the form of a sleeve 7 (Fig. 6, 9), having the shape of a truncated cone, the larger base of which turns into a cylindrical shape. The sleeve 7 has a through cylindrical axial bore and a longitudinal section. The bushing 7 with a longitudinal cut can be installed on the central core of the cable 1 or on several cores, or it can surround the cable 1 from the outside. In this case, the length of the sleeve 7 (connecting element) is determined by the formula

l _se = k⋅d _st ,

where l _se is the length of the connecting element, mm;

d _st is the diameter of the bearing rod, mm;

k - coefficient for calculating the length of the connecting element, ranging from 2.5 to 6.

The choice of a multi-wire support bar with a specific diameter influences the load-bearing capacity of the anchor. At the same time, the optimal relationship between the size of the diameter of the multi-wire bearing rod for holes in the workings from 20 mm to 50 mm and the size of the length of the connecting element (sleeve) for connection with the sleeve was established experimentally. The coefficient for calculating the length of the connecting element has been experimentally established, the limits of which are from 2.5 to 6. With a factor less than 2.5, the resulting length of the connecting element does not allow the connecting node to correspond to the given bearing capacity for this type of anchors. With a factor of more than 6, the resulting length of the connecting element is impractical for use.

The claimed ratio of the elements of the connecting unit allows you to create a reliable fastening of the coupling on the cable, as well as to ensure the bearing capacity of the connecting unit is not lower than the bearing capacity of the anchor. To fix the anchor in holes from 20 mm to 50 mm with a coupling length of 120 mm - 140 mm, the coefficient for calculating the length of the connecting element k has limits from 3 to 4, with a coupling length of 155 mm -170 mm, the coefficient for calculating the length of the connecting element k has limits from 3.5 to 4.5. With a sleeve length of 120 mm - 140 mm, the sleeve diameter most often exceeds the diameter of the hole for securing the anchor, therefore, for more reliable fastening, a coefficient is used to calculate the length of the connecting element k at least 3, and the limit to not more than 4 allows you to leave free space inside the coupling for additional elements. With a coupling length of 155 mm - 170 mm, the lower part of the coupling exceeds the diameter of the hole for fixing the anchor, therefore, for more reliable fixing, a coefficient is used to calculate the length of the connecting element k not less than 3.5, and the limit to not more than 4.5 allows you to leave free space inside couplings for additional elements.

This design of the connecting unit allows for high-quality pressing of the coupling on the cable with broadening nodes at the head end, preventing the coupling from slipping off the cable both when installing the anchor and when loading it, increasing operational safety due to reliable fastening of the coupling on the cable (connecting unit), corresponding bearing capacity of the anchor.

The outer surface of the sleeve can be made smooth or threaded for tightening the nut to create tension on the anchor, for example, using a support element.

The anchor structure may include a guiding tube, a female-to-wire support rod and is connected to the top of the sleeve. The guide tube facilitates the installation of the anchor, preventing bending of the anchor during installation and, accordingly, improving the quality of mixing, and with the injection method of fastening it is also a conductor of the fastening materials when they are injected. The guide tube for injecting the fastening materials is hermetically connected to the sleeve (welded, screwed on) and may contain a sealant at its free end. A hermetic seal (packer) closes the gap between the borehole wall and the injection pipe and seals separate zones of the boreholes to prevent leakage of the fixing material from the borehole (borehole). The guide tube and sealer allow the anchor material to be pumped reliably and efficiently without loss (leakage) of the anchor material. The lower part of the coupling may include an element through which it is possible to connect to the pumping device, in the form of a fastening element or as one of the parts of a quick-release connection, allowing efficient pumping.

An example of installation in the ampoule method of securing a rope anchor made of a seven-core cable with a head part having widening nodes 2 (Fig. 2). Each unit is formed by a ring 3 in the form of a nut, put on the central core of the cable and auger 4. Ampoules are inserted into a drilled hole with a diameter of 30 mm and sent to the bottom until they stop. After that, the anchor installer is connected to the collar 6 of the anchor placed in the borehole using an adapter, which, by rotating and feeding, sets the anchor to the design position. The diameter of the anchor rod is 15.2 mm. The bearing capacity of the anchor N _a = 21 t. The strength of the anchor fastening at one broadening node N _yy = 5 t. Under these conditions, we obtain n = 21 t / 5 t = 4.2, therefore, at least 5 broadening nodes are required. The strength of the connection of the coupling with the rope is ensured by a sleeve, the length of which is at least L = 3.6⋅15.2 mm = 54.72 mm, rounded up to 55 mm, with a coupling length of 120 mm. Thus, thanks to the screw 4 and the broadening nodes 2, the shells of the ampoules are effectively destroyed, the fixing materials are qualitatively mixed when they are compacted in the direction of the bottom of the hole. The resulting number of broadening nodes and the ratio of the elements of the connecting node are sufficient to provide the required bearing capacity of the anchor. After the fastening material has cured, a support element is put on the coupling 6 and a nut is screwed onto its thread.

The use of the device allows you to create a technological anchor that allows you to effectively use parts of the structure that provide operational reliability with the required (specified) bearing capacity.

Claims (14)

1. Flexible anchor for fastening in holes with a diameter of 20 mm to 50 mm, which is a multiwire bearing rod, on the tail of which a sleeve is fixed, characterized in that the sleeve is fixed to the bearing rod using a connecting element in the form of a sleeve with a longitudinal cut, length which is determined by the formula l _se = k⋅d _st , where l _se is the length of the connecting element, mm; d _st is the diameter of the bearing rod, mm; k - coefficient for calculating the length of the connecting element, ranging from 2.5 to 6. 2. A flexible anchor according to claim 1, characterized in that broadening units are made on the head part, the broadening unit is formed by at least one ring and / or auger. 3. Flexible anchor according to claim 1, characterized in that a bevel is made on the edge of the head part and / or a destructive element is fixed. 4. Flexible anchor according to claim 1, characterized in that it comprises a guide tube located on the load-carrying rod, connected to the upper part of the coupling, or a guide tube with a sealing element located on the load-carrying rod, connected to the upper part of the coupling. 5. Flexible anchor according to claim 1, characterized in that the outer surface of the coupling is smooth or threaded. 6. Flexible anchor according to claim. 1, characterized in that the inner surface of the sleeve has a cylindrical hole shape, turning into a conical, or conical hole shape, located between the cylindrical holes. 7. Flexible anchor according to claim. 1, characterized in that the lower part of the coupling in the injection method of fastening has an element by means of which it is possible to connect to the injection device in the form of a fastening element or in the form of one of the parts of a quick-release connection. 8. Flexible anchor according to claim 1, characterized in that the bushing with a longitudinal section is made in the form of a bushing with a cylindrical surface, or in the form of a bushing with a tapered surface, or in the form of a bushing with a tapered surface turning into a cylindrical one, and is installed on the central core a multi-wire rod or on several conductors, or covers a multi-wire rod from the outside. 9. Flexible anchor according to claim 1, characterized in that for fixing the anchor in holes with a diameter of 20 mm to 50 mm with a sleeve length of 120-140 mm, the coefficient for calculating the length of the connecting element k has a range from 3 to 4. 10. Flexible anchor according to claim 1, characterized in that for fixing the anchor in the openings of the workings from 20 mm to 50 mm with a coupling length of 155-170 mm, the coefficient for calculating the length of the connecting element k has a range from 3.5 to 4.5.

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