RU2034989C1 - Tunneling machine for working sloping seams - Google Patents

Abstract

FIELD: mining equipment. SUBSTANCE: tunneling machine for working sloping seams has several sections, each section has a roofing, skies of a base with a sector-type support, supporting struts and hydraulic jacks for traveling. Straight guides are mounted on the roofing of each section. Sliders, jointly connected with the supporting struts, are arranged in the above mentioned guides. The sliders are joined with the roofings by an additional hydraulic jacks. The guides, oriented towards a face, are provided by limiters of stroke of the sliders. EFFECT: enhanced serviceability. 1 cl, 5 dwg

Description

 The invention relates to the mining industry and can be used in the development of inclined coal seams with pillars in the fall.

 A well-known shield for working out inclined formations, consisting of sections, each of which includes a hinge pivotally supported by support and sloping hydraulic stands with supporting skis, rear skis, hydraulic lines with hydraulic distributors and hydraulic blocks of the stands, The shield is moved by means of persistent and sloping hydraulic stands by extending to the bottom supporting skis and the subsequent pulling up of overlaps with rear skis to them [1] The disadvantages of the known shield are the complexity of the hydraulic system and the low reliability of its movement due to insufficient pressure tions on overlapping rocks, collapsing behind the shield to move.

 The closest to the proposed invention in terms of technical essence and the achieved result is a shield consisting of sections, each of which includes a slab, base skis with a sector support, support legs pivotally connected to the slab and the skis of the base, sliding jacks attached at one end to the slab, and others to the sector ski supports of the base. The shield is moved by separately moving the slab and the base skis, respectively, along the roof and the bed soil [2] The disadvantage of this shield design is its unsatisfactory performance on inclined coal seams, since the front skis are immersed in the bed soil during the movement of the shield sections, which leads to to jamming and stop planting the shield.

 The purpose of the invention is to increase the reliability of moving the shield by preventing jamming of the front of the base ski in the soil of the formation.

 This is achieved by the fact that in the well-known shield for working out inclined formations, consisting of sections, each of which includes an overlap, base skis with a sector support, support legs connected to base skis and an overlap, and moving jacks pivotally attached at one end to the overlap, and others, to the base ski sector supports, directly proportional guides are installed on the overlap of each section of the shield, in which sliders are pivotally connected to the support posts, and hydraulic jacks are pivotally attached nnye one end to overlap, and the other to a slider, said guides are directed straight to the bottom of the slider and have a stroke limiter. Comparative analysis with the prototype allows us to conclude that the inventive shield for working out inclined formations is characterized in that on the overlap of each section of the shield there are installed straight guides in which sliders are mounted pivotally connected to support posts and hydraulic jacks pivotally attached at one end to the overlap and the other to the slider, and the straight guides are directed towards the bottom and have a slider stroke limiter.

 Figure 1 shows a section of the shield, side view; in Fig.2 node I in Fig.1; figure 3, 4, 5 scheme of mining the bottom and landing of the shield.

 The shield for working out inclined formations consists of sections, each of which contains an overlap 1, base skis 2 with a sector support 3, support racks 4, hydraulic jacks 5, pivotally connected to a sector support 3 and an overlap 1, sliders 6, straight guides 7, which placed the sliders 6, the limiter 8 of the stroke of the slide 6 and the hydraulic jacks 9, pivotally attached at one end to the overlap 1 and the other to the slider 6. To the overlap 1 at the roof of the formation a spring-loaded protective apron is hingedly hung 10. Overlap 1 freely lies at the soil of the plaz that on the sector support 3, rigidly fastened to the rear of the ski base 2 sections of the shield. Rectilinear guides 7 are fixed on the overlap 1 at the top of the reservoir and are directed towards the chest of the face. The supporting posts 4 are pivotally connected to the front of the ski base 2 and the sliders 6.

 The order of operation of the shield for working out inclined seams is as follows: coal extraction under the shield is carried out using one of the known methods, for example, by blasting, followed by scraping the beaten-off coal into flank carburettor furnaces or using a conveyor belt that is attached under the shield.

 At the first stage, coal is broken off at the top of the seam by the value of the step of planting the shield and the entire length of the working face. Then, the hydraulic jacks of the shift 5 are turned on and the overlap 1 moves over the sector supports 3 until the stopper of the “visor” of the overlap 1 moves to the coal mass at the top of the formation. After this, the chipped coal is unloaded into coal-blast furnaces (not shown).

 At the second stage (Fig. 5), coal is chipped in the bottom and near the bed of the formation by the value of the step of planting the shield and by the entire length of the working face, which is also issued from the bottom into coal-burning furnaces. Then include a hydraulic jack 9, which with its rod moves the slider 6 in the straight guides 7 to the chest of the face. At the same time, the support post 4 is pivotally connected to the slider 6 and the base ski 2, which raises the front part of the base ski 2 above the formation soil (this operation is shown by a dashed line). Next, include a sliding jack 5 for contraction, the stock of which pulls up the sector support 3 and with it the back of the base 2 ski, as a result of which the latter is torn off from the formation bed. Overlap 1, freely lying on the sector support 3, falls under its own weight and presses the rear part of the base ski 2 through the sector support 3. After the hydraulic jack 5 has been completely reduced and the overlap of the shield section 1 is seated, the hydraulic jack 9 will be reduced for reduction, which returns the slider with its rod 6 to the initial position, and the latter, acting through the support rack 4 on the ski base 2, presses its front part to the soil of the formation. The shield is ready (Fig. 3) for the next cycle of coal mining. The limiter 8 of the stroke of the slider 6 serves to adjust the height by which it is necessary to lift the front of the ski base 2, as well as to fix the slider 6 when replacing the hydraulic jack 8 in case of breakage.

Thus, the proposed shield allows the development of inclined coal seams (30-35 ^about ) pillars in the fall, which in comparison with other development systems provides the highest rates and more favorable working conditions.

Claims (1)

 A SHIELD FOR WORKING AN INCLINED LAYERS, consisting of sections, each of which includes an overlap, base skis with a sector support, support racks connected to the base ski and the overlap, and moving jacks pivotally attached at one end to the overlap and the other to the sector support of the skis the base, characterized in that, in order to increase the reliability of moving the shield by preventing jamming of the front of the base ski in the soil of the formation, it is equipped with straight guides mounted on the floor each section, with sliders placed in the guides and pivotally connected to the support posts, and additional hydraulic jacks, pivotally attached at one end to the ceilings, and the other to the sliders, while the straight guides are directed to the bottom faces and are made with sliders.

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