RU86977U1 - ANCHOR - Google Patents

Abstract

An anchor, including a bamboo supporting rod with longitudinal slots at the ends, in which spacers in the form of truncated cones are installed, conical half-sleeves and a support ring mounted on the inner end of the supporting rod, an elastic element mounted on the outer end of the rod between the working surface and the conical sleeve characterized in that the conical sleeve is provided with a thread and a nut.

Description

The proposed utility model relates to mining, namely to anchor supports used in the mining industry for attaching mining workings.

A well-known wooden anchor, consisting of a round supporting rod with longitudinal slots at the ends, to which spacers are placed in the form of wedges, a support plate and a conical sleeve at the outer end of the rod (Anchor lining. Handbook. M., Nedra, 1990, p. 43-45). The slots are cut in two mutually perpendicular directions to avoid splitting of the rod during installation of the anchor.

The disadvantage of this anchor is the low bearing capacity and the inability to create a preliminary tension of the bearing rod, which creates conditions for the stratification of the rock mass and reduces the reliability of its fastening.

The closest analogue to the claimed utility model is an anchor comprising a bamboo support rod with longitudinal slots at the ends, in which spacers in the form of truncated cones, conical half-sleeves and a support ring mounted on the inner end of the support rod are installed, an elastic element mounted on the outer the end of the rod between the surface of the excavation and the conical sleeve (Application for invention No. 2008116122/03 (018196)).

The disadvantage of this anchor is the low pre-tension of the supporting rod. The pre-tensioning of the supporting rod is achieved by successive impacts on the spacer element and the conical sleeve. However, the conical sleeve is jammed on the supporting rod before it reaches its required tension. The insufficient tension of the supporting rod creates the conditions for stratification of the array, which reduces the reliability of its fastening.

The technical task of the proposed solution is to increase the reliability of the mount.

The problem is solved in that in the anchor, including a bamboo supporting rod with longitudinal slots at the ends, in which spacers in the form of truncated cones, conical half-sleeves and a support ring installed on the inner end of the supporting rod are installed, an elastic element mounted on the outer end rod between the working surface and the conical sleeve, the conical sleeve is provided with a thread and a nut.

Distinctive features of the claimed anchor are that the conical sleeve is provided with a thread and a nut. This allows you to make the necessary preliminary tension of the bearing rod, reduce the possibility of stratification of the rock mass and thereby increase the reliability of its fastening.

The utility model is illustrated by a description of a specific implementation example and the accompanying drawings.

Figure 1 presents the claimed anchor, General view; figure 2 is a transverse section (aa) of the outer end of the anchor on the surface of the mine.

The anchor consists of a supporting rod 1 (figure 1), with longitudinal slots at the ends 2 and 3, cones 4 and 5, conical half-bushings 6, support ring 7, tapered sleeve with thread 8, round nut 9, an elastic element in the form of a disk spring 10 (FIG. 1, FIG. 2).

Anchor work. At the inner end of the supporting rod, the support ring 7 is reinforced, for example, of bamboo with glue. With a light blow of a sharp tool, for example, an hatchet, the end of the rod is split. Tapered half-sleeves 6, for example, by means of a narrow strip of adhesive tape, are mounted at a stop with a support ring on the inner end of the rod. A cone 4 is inserted into the cavity of the carrier rod 1. The carrier rod 1 with the cone and half-sleeves is inserted into the hole to its end. Then, by striking the outer end of the rod, the inner end is bursting between the cone and half-bushings. In this case, the support ring 7 does not allow semi-bushings to move along the rod and they burst with the walls of the hole.

An elastic element in the form of a Belleville spring 10, a conical sleeve 8 with a nut 9 is installed on the outer end of the supporting rod. A cone 5 is driven into the cavity of the rod and it is bursting between the conical sleeve and the cone. Light alternating impacts on the cone and conical sleeve pre-tension the supporting rod. In this way, a tension force of 1-2 kN can be obtained. Then, using the nut 9, the final tension of the support rod is produced. For bamboo rods having a tensile strength of 30–40 kN, a pretension of 5–10 kN is optimal. In this case, the anchor begins to work from the moment of installation and prevents peeling of the fixed part of the array. To work with a key, radial holes 11 and 12 are made in the conical sleeve and nut.

Thus, the creation of the necessary preliminary tension of the bearing rod of the anchor can improve the reliability of the mount.

Claims (1)

An anchor, including a bamboo supporting rod with longitudinal slots at the ends, in which spacers in the form of truncated cones are installed, conical half-sleeves and a support ring mounted on the inner end of the supporting rod, an elastic element mounted on the outer end of the rod between the working surface and the conical sleeve characterized in that the conical sleeve is provided with a thread and a nut.