RU2029094C1 - Anchor - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: anchor has bar with limiting ring and wedge conical head, anchoring half-sleeve, supporting plate, tension nut. Anchor has spring in form of flexible bracing plates with unbent ends. The latter are secured to outer walls of lower ends of half-sleeves. Plate ends are bent at angle of 50-55 deg. and interval between ends exceeds the well diameter. EFFECT: higher efficiency. 3 dwg

Description

 The invention relates to the mining industry, in particular to the fastening of mine workings with anchor support, especially in the conditions of formation of a large zone of rock destruction and the need for long composite anchors.

 There are various designs of anchors with wedge locks (AK-8u, ShK-1m, etc.), consisting of metal rods with a clinoconical head, spacer half-sleeves, base plate and tension nut [1].

 The installation of these anchors in the workings is very difficult and time-consuming due to the need to use a mounting pipe to be put on the rod for jamming the lock in the well, by impacts on which expansion half-wedges are wedged on the clinoconical head.

 An anchor with a self-jamming lock [2], which is used as a prototype, is also known, in which an installation spring in the form of elastic plates, put on a clinoconical head in the form of elastic plates, consisting of two parts is used to install and jam the lock: one part is expanded into the walls of the well, and the other part is connected through cutouts with spacer half-sleeves. When installing the anchor in mine workings, especially in wells with smooth moistened walls, when the lock is jammed by reverse movement of the clinoconical head, the part of the installation spring connected to the expansion half-sleeves transfers a greater shear force to its other part, which is expanded into the walls of the well. As a result of achieving the required initial spread and the introduction of spacer half-sleeves in the wall of the well, destruction or disruption of the spacer part of the installation spring is possible, which negatively affects the operation of the anchor as a whole.

 The purpose of the invention is to increase the reliability of jamming of the anchor lock in various rocks, especially in the conditions of formation of a large zone of rock destruction.

The goal is achieved in that the elastic spacer plates are fixed to the outer walls of the lower ends of the spacer half-shells. The ends of the plates are bent at an angle of 50-55 ^about , and the distance between the ends is greater than the diameter of the well.

 In FIG. 1 shows an anchor when installed in a well by pushing a rod; in FIG. 2 - the same, with the initial jamming of the lock by reverse movement of the rod with a tension nut; in FIG. 3 - the same, in the working position when the lock is completely jammed with the emphasis of half-shells in the protrusion on the clinoconical head.

 An anchor placed in the well 1 includes a rod with a restrictive ring and a clinoconical head 2, expansion half-sleeves 3, installation springs in the form of elastic expansion plates 4, a support plate 5 and a tension nut 6.

 Anchor works as follows.

 A rod 2 is inserted into a drilled well 1 with spacer half-rings 3 worn on it between the clinoconical head and the restrictive ring and installation springs fixed on them in the form of elastic spacer plates 4. By pushing the rod 2, it is moved along the borehole 1 to a predetermined lock jamming depth. Spacer half-sleeves 3 are based on the restrictive ring of the rod 2, and the mounting springs 4 mounted on the half-sleeves with a thrust into the walls are moved along the well.

 After moving the rod 2 to a predetermined depth, the base plate 5 is put on the end of the rod protruding into the workout and the rod is moved back by tightening the tension nut 6. Its clinoconical head enters into the stationary spacer half-sleeves 3, since the ends of the mounting springs 4 fixed on them as “ruffs” engage and penetrate into the borehole walls. As a result of the expansion of the half-sleeves by the clinoconic head, they are also embedded in the walls of the well and the initial locking of the anchor lock occurs.

 In the working position, as a result of the growth of the tensile force in the rod 2, when the rocks are displaced into the mine, the clinoconical head is additionally moved inside the stationary expansion half-sleeves 3 and they are additionally inserted into the borehole walls until the half-sleeves stop on the protrusion on the clinoconical head.

 The proposed anchor was tested at the Severnaya and Berezovskaya mines. "Severokuzbassugol". The experiments established reliable self-locking of the lock with installation springs from elastic plates 1.5 mm thick and 8 mm wide and 16 mm long in 42 mm diameter wells drilled in all rocks and with any drill bits.

 The economic effect of the use of the proposed anchor with increased reliability of jamming of the lock and higher resistance is created by expanding the area of fastening of the workings with anchor support and reducing the density of anchors.

Claims (1)

ANCHOR, including a rod with a restrictive ring and a clinoconical head, spacer half-sleeves, a support plate, a tension nut and an adjusting spring in the form of elastic spacer plates with bent ends, characterized in that the elastic spacer plates are fixed to the outer walls of the lower ends of the half-sleeves, while the ends of the elastic spacer plates are bent at an angle of 50-55 ^o , and the distance between the ends is greater than the diameter of the well.

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