CS230919B1 - Offset sliding bars for mechanized timbering - Google Patents

Abstract

The invention is in the field of coalface building deep mines. Staggered sliding mechanized joist support reinforcement the working space on the pillar on the side of the side when the Si is reduced space without direct dependence to move the mechanized reinforcement section. the essence of spoiling in, with the front joist (1) and rear gtropnice (2) are obliquely supported at least one extending arm (4), the rear joist is partially pushed under the front ceiling (1) or vice versa or rear (2) retractable to the front (1) or vice versa. The extension arm (4) is an extension a shield (5) supported at least once with a hydraulic support (9).

Description

The present invention relates to an offset sliding joist of mechanized reinforcement for securing a working space on a pillar and cave wall while increasing or decreasing the space provided without direct dependence on the movement of the mechanized reinforcement section.

When securing the working space on the pillar side and at the same time on the cave side, either mechanized reinforcement or individual reinforcement is used. Mechanized. Double-sided reinforcements - either gable or rake - always ensure a constant ceiling area and the securing of the ceiling of each swath is connected with the application of the sections. The individual work operations on the pillar and cave side are closely interdependent, the inlay work must be organized in connection with the foundation works, and the ceiling area thus built is large and therefore highly demanding on the construction of the reinforcement. In the current construction of the used joists, the length of the built-in ceiling is 6 to 7 m and the reloading of the reinforcement sections after each inhalation run, which ranges from 0.6 to 0.8 m, causes the ceiling to rock and loosen and then the rock from the overburden of the sections, into the foundation space and the reloading of the sections itself is then time and functionally demanding. Another negative phenomenon is the possibility of endangering workers when relocating sections and at the same time a lot of dust. The double-sided mechanized reinforcement used today is highly demanding in terms of installation space, and the actual deployment is carried out in two phases after the so-called base extension, which must be very wide for the assembly and disassembly of previously used mechanized reinforcement sections. reinforcement. Individual reinforcement, although still in use, is morally obsolete, in its operation often occurs injuries and the fall of the upright or joist, the operator due to the weight of the upright is strenuous and often dangerous with various injuries and severe. Individual hydraulic reinforcement is not suitable in conditions subject to mountain shocks.

These disadvantages are minimized by the offset sliding joists of the mechanized reinforcement according to the invention, characterized in that the front joist and the rear joist are obliquely supported by at least one extending arm on a curved surface, the rear joist being partially slid under the front joist or vice versa the rear wing is retractable into the front joist or vice versa, wherein the front joists relative to the rear joist are displaceable relative to each other in the direction of the plunger-caving, the extension arm being an extension of the shield articulated to the skid supported by at least one hydraulic support. The front, joist to the rear etropnice is locked to the extreme limits.

The advantage of the offset sliding joists of the mechanized reinforcement according to the invention is that the number of sections reloading is halved and reloading is done at the most suitable time, the area of the space to be secured is reduced by up to 40% compared to the currently used reinforcements. Mechanized reinforcement with sliding offset joists can also be used for mine collapse when the rear joist is lowered or the rear joist and rear gable are omitted. By making a series of different skid heights, the reinforcement can be modularly used for a considerable range of thicknesses from 1 to 3.5 to 4 m. The reinforcement according to the invention with interconnected sections can also be used in inclined to steeply laid seams with a foundation. A smaller width is required for the release and disposal base and the simple design does not require demanding mounting chambers. The function of sliding offset ceilings can be used for minimal reinforcement for mining of seams with an over-ceiling, longer for temporarily securing long works and the like. An important advantage is that the enlargement or reduction of the secured space is not directly dependent on the moving of the section of mechanized reinforcement, while the ceiling does not swing and thus its loosening and consequently spilling of rocks from the overburden into sections and foundation space. side without a preview of my own section. The secured area of the ceilings varies according to need, operably changeable in the range of maximum and minimum width of the built space. Relocation of sections with offset sliding joists is performed at any time in the range of 2 to 3 spent or established cycles. The sections with offset sliding joists also allow to secure the ceiling in advance when the coal pillar is pulled out - premature uncovering of the ceiling. This avoids rupture of the ceiling and significantly reduces the number of cracks in the faces to be constructed.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings show schematically exemplary embodiments of offset sliding joists of mechanized reinforcement according to the invention, in which Fig. 1 shows a side view of the offset joists, Fig. 2 is a plan view thereof. Fig. 3 is a side view of the mechanized reinforcement with offset sliding joists, and Fig. 4 shows the joists in the initial position, Fig. 4a for firing and blowing the first miter, and Fig. 4b for firing the second miter. Giant. 5 shows a delayed exhaust situation. Giant. Fig. 6 shows the position of the roof rails in the mining of cave-in; No, Fig. 8 is a tectonically-jump transition situation, and Fig. 9 is a tectonically-jump transition situation. Giant. 10 is a side view of a combination of rake and mesh reinforcement.

The offset sliding joist of the mechanized reinforcement of Figs. 1 to 3 consists of a front joist 1, while the rear joist 2 is partially slid under the front joist 1. The two joists are displaceable relative to one another on the contact surface 8. Both the joists 1 and the rear joists 1 are provided with curved surfaces 10 in which they meet with the extension arm 6, for example a hydraulic pedestal which is anchored into the joints 6 ' On the skid 6, further, hydraulic supports 2, which are supported in the shields Pteini of the joist 2 with the rear joist, are secured to each other by a locking element 2, for example a chain.

Reinforcement with offset sliding drifting J., 2 secures the ceiling area in its basic position - this is minimal. After the first miter has been cleared, the hydraulic support 2 is released, the extension arm 6 with the front flange J extends up to the pillar and the hydraulic support 2 of the front joist 1 is tensioned, the skid remains in position and the front joist is moved over the contact surface. 8 and at the same time the rear joist 2 is held. · This cycle, depending on the conquering of the power, can be repeated even after the second miter has been used without the sections being applied. The time required for the first and second or first, second and third miter to be spent is limited to the χ. In case of slipping during loading, the sections are reloaded in two steps with simultaneous extension of the rear joist 2, which coalesces the ceiling of the previously uninflated miter - fig. 5. With gradual blowing, they release and move to the rear joist 2 basic position. During mining, the rear joist 2 with the extension arm 4, the shield 2 and the hydraulic support 2 is removed, while the function of the extension arm 4 of the front joist is maintained. In the case where one block is alternately thrown into a caving with the necessity of a certain section with foundation, the drain is not sucked with the lowered ceiling joist 2 - fig. No, which is put into function or upright only at the place . When extracting a massive seam above the range of reinforcement, it is possible to use the function of the rear joist 2 P ™ method of the so-called undocumented - fig. 7 - on one wall conveyor or in the basic position on two wall conveyors. The transition of the unevenness of the ceiling - jump - jump is shown in Fig. 8, 9. Fig. 10 shows an example of a combination of play reinforcement 11 and silt reinforcement.

Claims (2)

An offset sliding joist of a mechanized reinforcement for a face of a deep mine, characterized in that it consists of a front joist (1) and a rear joist (2) which are inclined supported by at least one extending arm (4) on curved surfaces (10), the rear joist (2) is partially slid under the front joist (1) or vice versa, or the rear joist (2) is retractable into the front joist (1) or vice versa, the front joist (1) relative to the rear joist (2) being movable relative to each other the contact surfaces (8) independently, in the pillar-caving direction, the extension arm (4) being an extension of a shield (5) articulated to the rail (6) supported by at least one hydraulic support (9). The offset sliding joists of the mechanized reinforcement according to claim 1, characterized in that the front joist (1) with respect to the rear joist (2) is locked with an engaging element (3) for the extreme limits.