PL191771B1 - Roof supports section for crossings of mine workings - Google Patents

Abstract

A section of a mining paving set junction housings equipped with stands spaced longitudinally and in a lemniscate arrangement rectangular tube placed between the stands, characterized in that the total length (A) of the rectangular arm (4) is 0.92-0.99 clearance (P) between uprights (3) and equal is the range (Z) of the section height and is nominal the length (a) of the arm (4) is twice greater than the nominal extreme length (L) straight rod (5) while the articulation axis (8) connecting the extreme drawbar (5) with the floor runner (2) it is seated in the middle of the distance (R) between stands (3) and all proportions are approximate.

Description

Description of the invention

The present invention relates to a section of a mining roadway intersection set used in underground mining to support a pavement roof in the area of an intersection with a mining wall. In this place, high stresses in the rock mass occur and at the same time many devices of the mechanized longwall complex are accumulated. Hence, the support parameters of such casings are high and the canopies are long.

From the Polish patent specification No. 170 971 the pavement of the intersection is known in the form of a set consisting of three sections. Each section has two stands positioned along the axis of the section at a distance from each other. Between the stands, a lemniscate rectangular system is installed, consisting of an arm, tension members connected to it, and a floor base constituting the base of the straight line. The proportions of the rectangular system and the spacing of the stands relative to the height range are determined so that, both in the lower and upper position of the housing, there is a passage for miners on the section between the arm and the front rack. In this case, the arm is always inclined obliquely to the floor runner.

The length of the canopy, measured from the forehead to the front stand, is important in pavement supports, because the longwall system devices are hidden underneath it. The rest of the canopy does not cover the ceiling, so it should be as short as possible. It is similar with the height of the housing. The obliquely positioned skirt contributes to an excessive minimum height, and as a result the operating range of the housing is relatively smaller.

The aim of the invention is to improve the usability of the housing by increasing the height range and shortening the rear part of the housing.

The essence of the invention consists in the appropriate selection of the proportions of the components of the back of the housing. The total length of the straight-line arm is 0.92-0.99 of clearance between the stands and is equal to the height range of the sections. The nominal length of the arm is twice the nominal length of the extreme straight leg. The axis of the joint connecting the end pull rod with the floor runner is seated in the middle of the stand spacing.

The minimum vertical distance between the upper arm joint and the joint connecting the extreme pull rod with the floor runner should be 0.3 times the nominal length of the arm and double the vertical distance between the joints connecting the rods with the floor runner.

All proportions are based on the standard approximation. The approximation in which the deviations do not exceed 5% is considered such.

The above length dimensions of the arm and tie rods allowed for the maximum use of the distance between the stands. The choice of vertical distances between the joints made it possible to fully use the space between the canopy and the floor runner. The effects are especially noticeable with the minimum height of the housing.

An embodiment of a section according to the invention is shown in the drawing, in which fig. 1 shows the whole in an exploded state, fig. 2 an enlarged fragment of the rear part of the section in a collapsed state and both figures in a side view.

The roadway junction housing assembly consists of three sections arranged side by side in parallel. Each section has a multi-section canopy 1, a floor 2, two stands 3 and a rectangular system consisting of an arm 4 and rods 5 and 6. The stands 3 are spaced at a distance R, and a rectangular system 4, 5, 6 is located in the clearance P between them. The arm 4 is connected by the upper joint 7 with the canopy 1 near the rear stand 3. The rods 5 and 6 are connected to the second part of the arm 4, the other ends of which are embedded in the floor 2. The joint 8 of the extreme rod 5 is located on the floor 2 in the middle distance R between the uprights 3. The total length A of the arm 4 is close to the size of the clearance P between the uprights 3 and equals the Z range of the enclosure height. The nominal length a of the arm 4, measured between the axes of the extreme joints 7 and 9 is twice as large as the nominal length L of the extreme rod 5. With the casing fully retracted, the vertical distance B between the upper joint 7 of the arm 4 and the joint 8 connecting the extreme link with the runner 2 is two times greater than the vertical distance C between the joints 8 and 10 connecting the rods 5 and 6 with the floor 2. During the casing operation, the stands 3 move apart, carrying the canopy 1 and press it against the roof of the excavation. In order to move the sections, the stands 3 slide together, tearing the canopy 1 off the ceiling. This cycle is repeated many times as the longwall progresses. The stability of the sections is ensured by the straight-line system 4, 5, 6, which at the same time ensures an almost vertical trajectory of the canopy 1 movement during extension or sliding. The dimensions of the rear part of the section are chosen so that there is space

The area between the stands 3 is as full as possible. The passage for miners is provided between the sections and also in front of the first stand 3.

Claims (2)

1. Section of a mining roadway junction support set equipped with longitudinally spaced stands and a lemniscate rectangular system placed between the stands, characterized in that the total length (A) of the straight arm (4) is 0.92-0.99 clearance (P) between the stands ( 3) and is equal to the section height range (Z), while the nominal length (a) of the arm (4) is twice as large as the nominal length (L) of the extreme straight-line rod (5), while the axis of the joint (8) connecting the extreme rod (5) with the floorstand (2) is seated in the middle of the distance (R) between the stands (3) and all proportions are approximate. 2. Section according to claim 1 3. A method according to claim 1, characterized in that the minimum vertical distance (B) between the upper joint (7) of the arm (4) and the joint connecting the extreme pull rod (5) with the floor (2) is 0.3 of the nominal length (a) of the arm (4) and that is twice the vertical distance (C) between the joints (8, 10) connecting the tie rods (5, 6) with the floor runner (2).