SU1094968A1 - Roof bolt for supporting mine workings - Google Patents

Abstract

1. ANCHOR FOR FASTENING OF MINING WORKS, including a rod, an expansion lock from a conical wedge and a cylindrical spacer elastic element interacting with it with a through hole, the surface of which corresponds to a conical wedge, and a support device, characterized in that in order to be able to adjust the bearing capacity anchor and increase its compliance, the conical click is made in the form of a casing covering the rod of elastic material, while the conical wedge and spacer have in yenka longitudinal through cuts. 2. Anchor according to claim 1, characterized in that the incision in the wall of the conical wedge is diagonally made, and in the wall of the spacer element - spirally. . (L with so O) 00

Description

The invention relates to mining, and in particular to anchors for attaching mine workings.

A well-known anchor for securing mine workings, including a multi-stage rod from equal wedge-shaped sections with equal wedge angles and a spacer element interacting with the rod, the inner surface of which corresponds to the wedge-shaped form of the rod [1].

The disadvantages of the anchor are the complexity of its installation and the lack of compliance.

The closest to the invention in technical essence to the achieved result ₁₅ is an anchor for attaching mine workings, including a rod, an expansion lock made of a conical wedge and a cylindrical-shaped expansion elastic element interacting with it with a through hole, the surface of which corresponds to a conical wedge on the 20th , and support device [2].

However, the bearing capacity of such an anchor is not adjustable, and its ductility is negligible. ₂₅

The aim of the invention is the ability to control the bearing capacity of the anchor and increase its compliance.

This goal is achieved by the fact that in the anchor for securing the mine workings, including the rod, an expansion lock made of a conic 3θ wedge and a cylindrical-shaped expansion elastic element interacting with it with a through hole, the surface of which corresponds to a conical wedge, and the supporting device, the conical wedge in the form of a cage covering 35 bar made of elastic material, while the conical wedge and the spacer element have longitudinal through sections in the walls.

Moreover, the incision in the wall of the conical wedge- ₄ is made diagonally, and in the wall of the spacer element it is made spirally.

The drawing shows an anchor, General view.

The anchor consists of a rod 1, a lock made of a conical wedge 2, made in the form of a cage covering the rod 1 of an elastic material 45 with a through hole 3 and a diagonal section 4, and a spacer elastic element 5 with a spiral section 6, as well as a support device 7 • If it is necessary to increase the bearing capacity of the anchor, the locks are set at 5 ° in several places along the length of the rod. When a spiral cut on the spacer element 5 creates the possibility of wedging around the entire perimeter of the well

8, which greatly improves the performance of the lock. With a diagonal cut on the wedge 2, its adhesion to the rod 1 increases.

Anchor set as follows.

A conical wedge 2 is mounted on the locking end of the rod 1 from a steel of a periodic profile, a spacer element 5 is put on it, and an anchor is inserted into the well 8 until it stops in its bottom. Then, using a punch and an installation pipe (not shown), they hit the spacer element 5, which, moving along the wedge. 2, wedges the lock in the well. After fixing the anchor, the support device 7 is installed. With several locks, first, the end device is installed at the bottom of the well, then in a similar manner all subsequent ones.

Anchor works as follows.

When the rocks are displaced, they exert pressure on the support device 7, while the conical wedge 2 moves inside the spacer element 5. As a result, the adhesion strength of the rod 1 to the wedge 2 increases and the spacer element 5 in the well 8 wedges more. Due to the unevenness of the walls of the well 8 between them and the spacer element 5 is greater than the adhesion of the inner part of the spacer element 5 and the conical wedge 2. As a result, the conical wedge 2 with the rod 1 malleably moves under the action of the rocks until it is exhausted. the ability to deform the elastic material of the wedge and the spacer element.

Anchor tested at the mine. Spacers and wedges are made with a diameter of 34 mm, a length of 15 cm from polyurethane with a Shore hardness of 70 to 98 and high molecular weight polyethylene with a hardness of 95–98, and anchor rods from periodic reinforced steel with a diameter of 16–24 mm. Anchors are installed in wells with a diameter of 36–42 mm. The strength of fixing anchors with one lock is 60-65 kN, the compliance value is 1116 cm.

The design of the proposed anchor allows you to adjust its bearing capacity by changing the number of locks, as well as the diameter of the rod. The use of elastic material for the cone wedge and the spacer element and their execution with diagonally and helically directed cuts increases the flexibility of the anchor, which allows to expand the scope of application of anchor support in underground mine workings.

VNIIIPI Circulation 436 Branch of the PPP Patent,

Order 3558/20 Uzhhorod, st.

Subscription

Project, 4

Claims (2)

1. ANCHOR FOR FASTENING MINING PRODUCTION, including a gu rod, an expansion lock of a conical wedge and a cylindrical-shaped expansion elastic element interacting with it with a through hole, the surface of which corresponds to a conical wedge, and a support device, characterized in that, in order to be able to adjust the carrier the ability of the anchor and increase its compliance, the conical wedge is made in the form of a cage covering the rod made of elastic material, while the conical wedge and the spacer element have native through sections. 2. Anchor on π. 1, characterized in that the cut in the wall of the conical wedge is made diagonally, and in the wall of the spacer element it is spiral. SU „„ 1094968