RU2007582C1 - Method of support movement - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: after removal of outward pressure upper part of guard is moved with reference to lower part, ceiling is advanced to face. At the end of move guarding sides are moved forward and are strutted out against sides of adjacent sections. Then base is pulled forward. Upper part of guard is moved in opposite direction and section is strutted out. EFFECT: method is effective in stopes where powered supports are used. 2 cl, 2 dwg

Description

 The invention relates to underground coal mining, namely with the help of mechanized roof supports.

 A known method of moving the roof support, including alternately extending adjacent sections of the roof support of type I with the subsequent extension of the section of the roof support of the second type located between them. To do this, in each section, the hydraulic columns are removed from the spacer, the ceiling is moved together with the hydraulic columns and the latter is bursting.

The disadvantages of this method when working lining in difficult geological conditions are:
high specific pressure on the soil of the reservoir, which is caused by the absence of a base in the support sections of types I and II.

 The extension of adjacent sections of the roof support of type I and the subsequent extension of the located between them sections of the roof support of type II, this requires unnecessary movement of personnel serving the roof support.

 There is also known a method of moving the lining, including alternately extending the sections. To do this, in each section they are removed from the stand of the hydraulic stand; at the same time they move the overlap, the base and the water pillars and burst the latter [1].

The disadvantages of this method when the support section in difficult mining and geological conditions are:
when moving the support section of the large sliding section, the section tilts towards the blockage. This is caused by the location of the movement hydraulic cylinder in the lining section near the soil of the formation and the emerging resistance to movement near the roof. This phenomenon is especially pronounced when moving the lining section with support. This disadvantage reduces the speed of fastening of the roof.

 When the section of the protective-supporting type is used on weak soils, it is possible to press the toe of the base into the soil. Therefore, to move such a section requires an additional device for lifting the base.

An additional device for raising the base reduces the working space of the lining section and has a limited lifting height;
with the penetration of face coal or roof rocks into the working space of the section, it is difficult to re-fill the latter.

 The aim of the invention is to increase the reliability of the support in difficult mining and geological conditions.

 This goal is achieved by the fact that after removing the pressure from the lining section, move the upper part of the fence relative to the bottom and move the overlap to the bottom and at the end of the stroke pull the protective boards out, then pull the base of the section with the lower part of the fence, while the upper part of the fence is moved to the side opposite to the extension of the ceiling, and burst section. After the operation for expanding the retractable sides, if necessary, raise the base by reducing the hydraulic stands, and then pull up the base with moving the upper part of the fence and burst the section or burst the section, and pulling up the base with moving the upper part of the fence and the spacer of the section is carried out after the operation of the complex.

 Consider the novelty and significant differences of the alleged invention.

 The sign "move the upper part of the fence relative to the lower and move the overlap to the bottom" is known.

 However, in the known solution, this feature is used to attach additional exposure of the roof and the amount of displacement is not related to the step of the section moving. In our case, these quantities are in strict accordance. This is the essential difference between our attribute.

 The sign "carry out the extension of the protective boards" is known (see prototype) the difference between our feature and the known one is that it is carried out at the end of the extension stroke of the overlap, that is, the significance of the feature is in the sequence of operations.

 The sign "pull the base of the section with the lower part of the fence, while the upper part of the fence is moved to the side opposite when sliding the ceiling" is not known.

 The sign of “raising the base by reducing the water column” is not known.

 The sign "after the protective boards are pulled out, the section is bursting, and the base is pulled up with the rotation of the upper part of the fence and the section spacer is carried out after the complex is operated" is not known.

 The proposed method is as follows. A mechanized complex consisting of a mechanized sectional lining, a face conveyor and a combine is equipped in the lava. The section of mechanized roof support consists of overlapping with the upper part of the fence, the base with the lower part of the fence, hydraulic racks, a hydraulic movement cylinder located on the base and connected to the conveyor. Parts of the fence are interconnected. Following the excavation of the mineral by the combine, the roof is fastened with support sections. For this purpose, the struts are removed from the hydraulic struts of the section (either they are upset, or they are transferred to the operation mode with backwater) and the upper part of the fence is moved relative to the lower connections between them. At the same time, the overlap is moved to the bottom by the size of the step of moving the lining section. Since the developed force is applied directly to the overlap during movement of the upper part of the enclosure, favorable conditions are created for the latter to overcome the emerging resistance at the formation roof. At the end of the stroke, the slides extend the protective sides. Depending on the geological and geological conditions, either the base of the lining section is pulled by the movement hydraulic cylinder by the step size of the section moving to the conveyor, or when the base or its toe is drowned, the base is raised and then pulled to the conveyor. The rise of the base is carried out by an additional reduction in the hydroracks, i.e., without the use of additional devices. The constant position of the overlap when raising the base is maintained by the thrust of the protective boards of the overlap in adjacent sections.

 If there is a need to carry out work in the process of supporting the support section, not related to its movement (for example, to clean the support section from coal that got into it when the face collapsed or by sliding the conveyor), the roof is first fixed by moving the ceiling to the face, for which after the protective boards are pulled out to protect the intersectional gaps, the section is bursting and performing the necessary work, and then the strut is removed from the section for the second time and the base is moved.

 In FIG. 1 shows a lining section in front of a coal miner by a combine; in FIG. 2 - the same, after coal mining by the combine and the extended overlap.

 In the working face (lava) there is a mechanized complex, including a conveyor 1, a mechanized support, consisting of the same type of sections 2, having a ceiling 3 with protective sides 4 and the upper part of the fence 5 with protective sides 6, the base 7 with the lower part of the fence 8 and the hydraulic cylinder 9, a hydraulic stand 10, a fixed link 11 and a movable 12.

 Depending on the direction of the face, one of the protective sides 4 or 6 can be fixed on the ceiling 3 and the upper part of the fence 5 rigidly.

 The method is as follows.

 Mechanized support is installed at a predetermined distance from the bottom, for example, at a step of movement from the conveyor, and burst (Fig. 1). Following the passage of the combine, the spacer is removed from the lining section, for which the hydraulic pillars 10 are upset or placed in the backwater mode and the upper part of the guard 5 is moved counterclockwise by the movable link 12 relative to the fixed link 11. At the same time, the overlap 3 is moved to the bottom. Since the movable connection 12 is located above the hydraulic cylinder 9 and transfers the force through the upper part of the fence 5 to the overlap 3, the latter creates favorable conditions for overcoming the roof resistance. The overlap 3 is advanced by the step of moving the section. At the end of the stroke, the slides 3 extend their protective sides 4 so that they interact with similar sides of adjacent sections of the support 2 (see Fig. 2).

 When the base 7 or its sock is drowned in the soil, the hydraulic pillars 10 are additionally reduced and the base 7 is raised or it is given an angle of inclination to the bottom. This provides favorable conditions for the movement of the base 7. The rise of the base 7 is carried out by holding the ceiling 3 in an unchanged position by spreading the protective boards 4 into adjacent sections of the lining 2. The height of the base is limited by the extension of the hydraulic struts 10, which creates favorable conditions for the expansion of the working space of the section. Then the movement hydraulic cylinder 9 pulls the base 7 with the lower enclosing portion 8 to the conveyor 1 by the step size of the movement section. At the same time, the upper part of the fence 5 is moved clockwise with a movable link 12 relative to the fixed 11 and the floor 3. The constant position of the latter is maintained due to the expansion of the protective boards 4 into adjacent sections of the support 2. After moving the base of the hydraulic stand 10, they are bursted, the conveyor 1 is moved and the section is brought support in a starting position (see. Fig. 1).

 The protective sides 6 are moved apart, as in the known methods of moving the lining section.

 If there is a need to carry out works related to its movement during the movement of the lining section 2 (for example, to clean the lining section from coal that got into it when the face collapsed or by sliding the conveyor), the roof is fixed first, for which, after sliding the ceiling 3 hydraulic struts 10 are buried on the face and perform the necessary work. At the end of these works, the strut is removed again from the hydraulic struts 10 and the above operations are carried out.

 The proposed method of moving the lining does not exclude the method of moving specified in the prototype. To do this, remove the spreader from the hydraulic struts 10, pull up the lining section to the conveyor 1 by the step of moving the section and burst.

 The proposed method of movement allows in cases where, for example, there is a need to only lift the base, to combine the proposed method of movement and the one specified in the prototype during the movement of the section. To do this, the proposed method moves the lining section by an amount smaller than the step of moving the section, and further movement of the section is carried out in a known manner.

 The choice of the method of moving the section depends only on the geological and mining conditions when mining.

 The proposed method of moving the lining section allows to increase the reliability of the lining operation in difficult geological conditions by eliminating the overturning of the lining section of the large sliding to the blockage, quick reinforcement of the newly exposed roof and effective lifting of the base. (56) Integrated mechanization and automation of sewage treatment in coal mines, ed. Bratchenko B.F. - M.: Nedra, 1977, p. 114-116.

Claims (2)

 1. METHOD OF MOBILE MOUNTING, including removing the strut from the section, moving its overlap and base to the bottom, extending the protective sides and the strut of the section, characterized in that, in order to increase reliability in the operation of the lining in difficult geological conditions, the ceiling is moved by moving the top parts of the fence relative to the bottom, the base - pulling up with the movement of the upper part of the fence in the opposite direction, and the protective sides put forward at the end of the movement of the floor, bursting them into the protective sides of adjacent sections.  2. The method according to p. 1, characterized in that the base is lifted by reducing hydroracks after the extension of the protective sides.

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