PL12649S2 - A structural element of the mining support pole - Google Patents

Description

Structural element of the mining support pole The subject of the industrial design is the structural component of the mining support pole to strengthen the support of mining excavations.

The structural element of the mining support column is the only element that makes up the structure of the mining support column, which is a structure composed of longitudinal beams with a polygonal cross-section made of coniferous or deciduous wood, arranged one on another in such a way that the contact surfaces between the adjacent layers of the beams are as large as possible, where the longitudinal beams are connected with each other in a vertical plane by a system, perpendicular to the longer side of the beam, clamp on the so-called Dovetail made at the right angle, creating a monolithic structure designed to strengthen mining excavations, prevent deformation of the roadway support, prevent net sagging and fill empty spaces behind the housing of mining excavations and protect wall galleries behind the front of the wall.

The object of the industrial design is presented in the illustration, in which Fig. 1.1 - shows the structural element of the mining support pole in a side view, Fig. 1.2 - shows the structural element of the mining support pole in top and side view, Fig. 1.3 - shows the structural element of the mining top view, Fig. 1.4 - shows the layered mining pole structural member in side view, and Fig. 1.5 - shows the layered mining support pole structural component top and side elevation.

Significant features of the industrial design are manifested in the fact that the structural element of the mining support column is made of a longitudinal beam (1) of a homogeneous material with a polygon cross-section, processed in a way that ensures the maximum contact surface of the layers to be laid by applying on each longitudinal beam (1) with a cross-section of the polygon of the system perpendicular to the long side of the beam, nips (2) and (3) on the dovetail made at the right angle in such a way that the central part (4) of each beam (1) is located between the cuts (2) and (3) on the so-called dovetail and end parts (5) of each beam located at their ends, except for cuts (2) and (3) perpendicular to the long side of the beam on the so-called During the laying of successive adjacent layers, the dovetail meets the appropriate central parts (4) of the beams (1), ensuring a sufficiently rigid and tight connection of the structural elements of the column, the base of which is a polygon.

In order to obtain greater joint tightness of the longitudinal beam joints (1), a tongue-groove joint or its multiplicity is additionally used, but it can be a so-called own tongue or a foreign tongue, which is an element placed in the cuts of both adjacent to each other in a vertical plane, adjacent structural elements of the mining support pole.

By using a system of jams (2) and (3) perpendicular to the longer side of the beam, on the so-called the dovetail made at the right angle, the layered structural elements of the mining support column self-jam under the influence of rock mass pressure. The entire contact surface of adjoining structural elements carries the static loads of the mining support column.

In order to obtain greater joint tightness of the longitudinal beam joints, a tongue-groove joint or its multiplicity is additionally used, but it may be a so-called own tongue or a foreign tongue, which is an element placed in the cuts of both adjacent to each other in a vertical plane, adjacent structural elements of the mining support pole.

By using a system perpendicular to the longer side of the beam, cut the so-called the dovetail made at the right angle, the layered structural elements of the mining support column self-jam under the influence of rock mass pressure. The entire contact surface of adjoining structural elements carries the static loads of the mining support column.

In order to obtain greater joint tightness of the longitudinal beam joints (1), a tongue-groove joint or its multiplicity is additionally used, but it can be a so-called own tongue or a foreign tongue, which is an element placed in the cuts of both adjacent to each other in a vertical plane, adjacent structural elements of the mining support pole.

By using a system of oblique to the longer side of the beam, the nips (2) and (3) on the so-called the dovetail made at the right angle, the layered structural elements of the mining support column self-jam under the influence of rock mass pressure. The entire contact surface of adjoining structural elements carries the static loads of the mining support column.

The advantage of the subject of the industrial design is the simplification of the construction of the structural element of the mining support column by the use of longitudinal beams with a polygon cross-section.

The advantage of the model in question is also the high durability of the elements used and the large contact area of adjoining structural elements, which transfer the static loads of the mining support column.

The use of a triangular base of the mining support column results in extremely low material wear while maintaining a high coefficient of rock mass resistance. The advantage of the model in question is the fact that the structural element of the mining support pole, which is its only structural element, allows to obtain a mining support pole with full development and maximum strength, the empty internal space of which can be additionally strengthened by pouring it with any mineral binder, or by filling it with any mineral binder, or by filling it with a solid rock and flooding with any mineral binder, in order to transfer increased loads and pressures from the rock mass.

List of industrial design variants a) variant 1 - shown in Figures 1.1,1.2,1.3,1.4,1.5 b) variant 2 - shown in Figures 2.1,2.2,2.3.

The essential features of variant 1 of the industrial design consist in the fact that the structural element of the mining support column is made of a longitudinal beam made of a homogeneous material with a polygon cross-section, processed in a way ensuring the maximum contact surface of the layers being laid by applying a system perpendicular to the longer polygon cross-section on each long beam with a polygon cross-section. the side of the beam is cut on the so-called dovetail made at an appropriate angle in such a way that the central part of each beam is located between the cuts on the so-called dovetail and end parts of each beam located at its ends, except for cuts perpendicular to the long side of the beam on the so-called During the laying of successive adjacent layers, the dovetail touches the appropriate central parts of the beams, ensuring a sufficiently rigid and tight connection of the structural elements of the column, the base of which is a polygon. The essential features of the second industrial design, shown in Figures 2.1, 2.2 and 2.3, are manifested in this that the structural element of the mining support column is made of a longitudinal beam (1) made of a homogeneous material with a polygon cross-section, processed in a way that ensures the maximum contact surface of the layers to be laid by applying on each longitudinal beam (1) with a polygon cross-section a system inclined to the longer side of the jam beam (2) and (3) on the so-called dovetail made at the right angle in such a way that the central part (4) of each beam (1) is located between the cuts (2) and (3) on the so-called dovetail and end parts (5) of each beam located at its ends except for cuts (2) and (3) oblique to the long side of the beam on the so-called During the laying of successive adjacent layers, the dovetail touches the respective central parts (4) of the beams (1) ensuring a sufficiently rigid and tight connection of the structural elements of the column, the base of which is a triangle.FIG.1.1 FIG.1.2 FIG.1.3FIG.1.4 FIG. 1.5 FIG.2.1 FIG.2.2 FIG.2.3 FIG.1. 4 FIG. 1.5 FIG.2.1 FIG.2.2 FIG.2.3