RU2099535C1 - Yielding prop of mine support - Google Patents

Abstract

FIELD: designs of yielding props of mine support; may be used in any mining and geological conditions. SUBSTANCE: design of mine support yielding prop includes lengths of special section taken in pairs and having through longitudinal recesses, and connecting member in form of wedge located in combined recesses of paired lengths of special section. In this case, recesses in internal nondeformable part of prop are conjugated with bottom of special section to ensure contact of bottom with wedge made flat with one-sided edge face beveled towards bottom of special section. EFFECT: simple design, reliable in operation.

Description

 The invention relates to mining, in particular to the fastening of mine workings.

 Known designs of metal supports (racks) of the mine lining, working on the principle of friction, for example, the KMPT lining currently used in coal mines.

 A disadvantage of the known design is the significant material consumption of the lock (clamp and wedge) and the insecurity of the specified resistance of the rack. Known is the locking joint of the frame support (ed. St. USSR N 594326, class E 21 D 11/14, 1978), including lapped ends of the grooved profile elements having longitudinal grooves in the walls, in which there is a connecting wedge with a cotter pin at the narrow end .

 However, this design of the castle joint of the paired segments of the special profile does not provide the necessary flexibility; the roof support works in hard mode after slight compliance with the self-tightening of the castle connection.

 It is known that a wedge is executed with an edge sharpened on one side as a connecting link for the lining (ed. St. USSR N 723159, class E 21 D 11/14, 1980).

 However, the constructive implementation of the known castle connection lining provides only the fixation of the upper on the supporting platforms, not being an element of compliance.

 The purpose of the invention is the improvement of the design of the flexible support and the provision of its constant resistance.

 This goal is achieved by the fact that in a malleable support of the mine lining, including paired sections of the special profile made with through longitudinal grooves, and a connecting element in the form of a wedge located in the combined grooves of the paired segments, the grooves in the inner non-deformable part of the support are made paired with the bottom of the special profile to ensure the contact of the bottom with the wedge, and the wedge is made flat with a one-sided cutting edge, beveled to the bottom of the special profile.

 In FIG. 1 and 2 show the types of support from the side and from the bottom of the special profiles; in FIG. 3 cross section of the support along the castle part.

The compliant support consists of two paired segments 1 and 2 of a grooved special profile, in which through longitudinal grooves are made 3. The parts of the support are fastened to each other by means of a flat truncated wedge 4 placed in the grooves 3. In order to stiffen the support and ensure parallel mutual displacement of its components parts of the grooves in the internal non-deformable special profile are made conjugate to the bottom with a tight fit of the wedge to this bottom (figure 3). One-sided sharpening of the cutting edge of the wedge serves this purpose (the cross section of the wedge corresponds to groove 3 in Fig. 1), which helps to attract the external deformable special profile to the internal one. Close to optimal wedge parameters: 100 + 200 mm, wedge angle 1 ^o C3 ^o , thickness 10 ^o C15 mm. The length of the deformable special profile is advisable not more than 1.0 m, this is a sufficient amount of support compliance, and at the same time, the castle part of the support will be located closer to the working soil, in the zone of lower pressure from the lateral rocks.

 Assembly of the support is simple. Its components 1 and 2 are superimposed on each other, their grooves are combined and a wedge is clogged in them.

 The support works as follows.

 At a critical load exceeding its calculated bearing capacity, the wedge 4 with a cutting edge cuts through the side walls of the outer special profile 2 and moves down along with the upper, non-deformable part 1 of the support. This ensures constant resistance of the support, determined by the wall thickness of the deformable special profile, the sharpening angle of the cutting edge of the wedge and the metal hardness of the special profile. The compliance of the support is determined by the height of the deformable part 2 and is exhausted by the contact of part 1 of the support with the working soil.

 The support can be made adjustable in height. For this, in the non-deformable internal segment 1 of the special profile, additional through grooves are cut along the height of the support with a strong jumper between them. In this case, the height adjustment is stepwise, with an interval equal to the height of the wedge (groove) plus the height of the jumper between the grooves. The height adjustment of the support can be carried out by manufacturing different in length, for example, deformable parts 1 of the support or by different removal of through grooves from the ends of the component parts 1 and 2 of the support.

 Dismantling the support is also straightforward: for example, a hydraulic stand or support of a powered roof support is installed nearby, a wedge is knocked out of the grooves from the support of the tapered truncated end, and the support, if it is not deformed, is ready for reuse.

 The proposed compliant support is structurally simple, reliable in operation and can be used in any mining and geological conditions.

Claims (1)

 A pliable support of the shaft support, including paired sections of the special profile made with through longitudinal grooves, and a connecting element in the form of a wedge located in the combined grooves of the paired special profiles, characterized in that the grooves in the internal non-deformable part of the support are made conjugated with the bottom of the special profile to ensure contact of the bottom a wedge, and the wedge is made flat with a one-sided cutting edge, beveled to the bottom of the special profile.

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