SU599088A1 - Section of powered mine roof support - Google Patents

Description

The invention relates to mining, in particular, to devices for fixing the cleaning faces of circulating coal seams and controlling blood in a shield-type development system. K-shaped shaft supports for steep seams are known, consisting of a top and two racks connected in the upper part and arranged at an angle to the roof, and both racks are acted upon by a spacer device, which is also a supporting element that has an axle and with a handle for the purpose of adjusting the support in height and pressing the tops 1. However, in this structure, the support for its rigidity is set by an expansion device that does not have the necessary compliance. In addition, it is characterized as increasing resistance Kpeiib. When using gidroek, constant resistance at the corresponding thrust angles in the slab cavities, high pressures occur with little load from the spacer. The known lining design does not provide a mechanized movement during operation, but is with an individual lining with periodic unloading, shifting and subsequent expansion. The closest technical pemmieM to the invention is the section of mine-mounted support, including axle, overlapping, simple, the supporting part of the support, connected with the overlap by means of expansion links, one of which is installed in a chart, and a means for extending the protective part to hydrocylide. However, such a support structure does not provide self-movement to the bottom of the chest, and also the protection of the developed space on the dam side in conditions of unstable lateral porosity is not sufficiently reliable. the development of steep seams stripes down dip. The purpose of the invention is to increase the reliability of fastening under the conditions of unstable lateral rocks in the development of steep-sloping seams by falling stripes. This is achieved by the fact that the second spacer link is also pivotally installed, and the protective part is made of three components, the upper and lower parts of which are made in the form of rigid plates inclined towards the blockage, which are interconnected by means of a sliding cylinder, a protective part, and an overlap and the base -

by means of limiting support links, with their free cake planes being installed to interact with the base and the floor.

FIG. 1 shows a support section in the position of thrust; in fig. 2 - the same in the traveling position.

The support consists of a base 1, an overlap 2 located on a hydraulic post 3. The support seats of the hydraulic post on the overlap and the base are pivotally connected by means of movable extension members 4 respectively to the supports of a double-sided vertical hydrodromc 5 mounted on the brackets 6 of the middle part of the composite fence 7 from the developed side . The middle part of the composite fence 7 is made in the form of telescopic plates interchanging each other, depending on the extent of the expansion of the hydraulic cylinder 5. The upper 8 and lower 9 parts of the fence are made in the form of rigid plates connected by movable and middle parts on the hinges, the planes of the second are inclined towards the dam. , and their free end planes are installed with the possibility of interaction with the base 1 and the overlap 2, with which they are connected by pivotally limiting support links 10.

The initial setting of the reservoir thickness and spreading of the lining is carried out by hydroresistant 3 and hydrodromat 5, which, when expanding or contracting, distributes the load through the spacer links 4 of the mass of the bulk cushion and the crumbling rocks to the supporting points of the base 1 and overlap 2. Movement of the support to the chest slab behind the retrieving body is carried out by the method of pushing the supporting part from the protective part by changing the position of the distance links 4, the upper 8 and the lower 9 parts of the composite fence 7 with the help of House 5. The common support for the movement of the lining are rocks of the dam, interacting with the protective part of the lining.

When the angles of inclination of the spacer links 4 and the movable parts 8 and 9 of the fence to the base 1 and the overlap 2 decrease, the part of the total pressure of the hydraulic jack is reduced, and the force on the movement increases, and when the force of the thrust and force between the lateral rocks supporting

the part moves to the chest with the corresponding support. The force of the active back-up is determined by the thrust of the hydraulic post 3, which during operation can be changed within the required limits.

The barrier part of the support is pulled up to the supporting part due to the reduction of the length of the hydraulic jack 5 and, under the action of the load from the rock formations, returns to the position of the support beam.

The proposed lining design allows for continuous movement behind the working body, which minimizes the exposure of rocks and makes it possible to use it in various geological conditions. The 1A design contributes to the reliable protection of the working space from the penetration of the collapsed rocks and provides for self-propagation of lining, using the load from the mass of the collapsed rocks on the barrier part.

Claims (2)

1. The patent of Germany No. 1062653, cl. 5 On 15/00, 1960. 2. Authors certificate of USSR M 184227, M.kl. E 21 D 19/02, 1965.