SU1102977A1 - Unit for hydraulic monitor extraction of coal - Google Patents

Abstract

1. UNIT FOR HYDRO-MONITORING CARBON MILLING, including mechanized roof sections, each of which contains upper and hydraulic legs, a barrel with a nozzle mounted on a movable plate, shifters hydraulic jacks, articulated, water supply system with high-pressure hoses, in order to increase hydroforming by ensuring an optimal distance between the barrel with the nozzle and the cleaning face, the tops of the sections are equipped with connecting beams, with seams, inside which are mounted sliders with possibly 11a, e., and a base ba / i, consisting of frames, nrpirno connected between themselves, in the center of which niapnnp are installed the cuffs rigidly attached to the connecting beams, while the guides are pairwise connected by means of the connecting beams and the perpendicular The base ba; 1ke, and the shifter jacks are shifted with one end of the Hiap mount to the tops, and the other to the connecting beams. 2. The unit according to claim 1, characterized in that it is provided with a fencing shield, a movable plate and grippers, by means of which the movable plate is installed on pa (g base beam, while fencing nigg rigidly fixed on the grips. 3. The unit according to clause I. characterized in that it is provided with a chute connected to the hydraulic supports by means of hydraulic jacks 4. An assembly according to claim 1, characterized in that 5 it is equipped with additional fasteners by means of which the hinges of the driver are connected to the base beam.

Description

The invention relates to mining equipment used in the extraction of coal by hydraulic method, and can be used in the development of flat coal seams of average power. A known unit with a chute, brackets with vertical guides and jacks of the cage, executive bodies. The Dronstein is hinged to the lining sections, which in turn have vertical guides 1. However, the known aggregate is characterized by a limited area of action of the hydraulic jack jets and, as a result, the limited length of the worked section of the lava, as well as a sharp decrease in the performance of blasting as the object is removed. (zabo) destruction from the nozzle. The closest in technical essence and the achieved result is a unit for hydraulic pulley coal excavation, including mechanized lining sections, each of which contains upper and hydraulic supports, a barrel with a nozzle mounted on a movable plate, shifters of hydraulic jacks, water supply system with high-pressure shannami 2. Disadvantages This device is a limited area of action of the jet and, therefore, is limited to the length of the developed section of the lava, the performance of the blasting is low. In addition, the plate on which the jet monitor is mounted is a rotatable boom and hydraulic jacks located on the soil of the lava across the flow of pulp and the formation of flow. The purpose of the invention is to increase the efficiency of hydrotreatment by providing an optimal distance between the barrel with the nozzle and the cleaning face. The goal is achieved by the fact that the unit is equipped with mechanized support sections, each of which contains top and hydraulic legs, a barrel with a nozzle mounted on a movable plate, advancing hydrojacks, an articulated water supply system with high-pressure hoses, and the top are equipped with connecting beams that guide Inside which are installed sliding sliders, and a base beam consisting of frames pivotally interconnected, in the center of which pivots are hinged, rigidly attached to the connector tional beams, the guide pairs are coupled by means of connecting beams and are perpendicular to the base beam, and hydraulic cylinders advancing one end pivotally secured to the upper Kah, and another - to the connection beams. The unit is equipped with a fencing shield, movable plate and grippers, by means of which the movable plate is mounted on the base beam, while the fencing shield is rigidly fixed on the grippers. The unit is equipped with a chute connected to the hydraulic racks through hydraulic jacks. The unit is provided with grippers, by means of which the hinges of the aqueduct are connected to the base beam. FIG. 1 and 2 are flowcharts of the unit; in fig. 3 is a view A of FIG. four; in fig. 4 shows a section BB in FIG. 3. The unit for the jetting coal excavation contains a mechanized support 1, consisting of sections of the same type, each of which includes hydroracks 2, upper to 3. On the upper sections of mechanized supports there is a base beam 4, consisting of frames 5, pivotally interconnected in the center of which are pivotally mounted pins 6, rigidly attached to the connecting beams 7, by means of which the rails 8 are rigidly connected under each section of the powered support 1; the sliders 9 are fixed inside the rails 8; secured to upper chambers 3. The base beam 4 and mechanized lining sections 1 are shifted by hydraulic jacks 10, hinged at one end to the upper chambers 3, the other to connecting beams 7. The actuator is designed as a barrel 11 with a nozzle 12 installed on the movable plate 13. The barrel is moved with a nozzle in a vertical plane by a hydraulic jack 14; in the horizontal, by a hydraulic jack 15 mounted on the movable plate 13. The movable plate with an actuator mounted on it is connected to the base card 4 by gripper beam 16 is rigidly mounted on the plate. The water is supplied to the executive body through a hinged conduit 17 connected to the barrel 1 1 and consisting of high-pressure hoses 18 and hinges 19 with a canter attached to the grips 20 sliding along the base beam 4. The protecting wall 21 is rigidly fixed on the grips 16, by means of which the movable plate 13 with the actuator mounted on it moves along the base beam 4. A groove 23 is laid to form a flow of pulp over the soil of the clearing hole 22, which is connected by means of hydraulic jacks for shifting 24 seconds. The bottom racks of 2 mechanized roof supports 1. On the slides 25 and 26, for example, winches 27 are installed to move the slab along the lava. The unit works as follows. At the beginning of the blasting cycle, the barrel 11c with the nozzle 12 is located on the drift 26. When water is supplied to the barrel 11 through the hinged conduit 17, which consists of high-pressure

hoses 18 and hinges 19, the chip is chased to the width equal to the step of advancing the mechanized support sections 1. By changing the angle of inclination of the barrel with the nozzle in the vertical plane by the hydraulic jack 14, in the horizontal hydraulic jack 15, the angle is crushed over the entire height of the layer to the depth of maximum efficiency jet determined for each case experimentally, depending on the strength characteristics of the coal and water pressure. As the coal is crushed, the actuator together with the movable plate 13, mounted moving by the grippers 16 along the base beam 4, shuffles along the clearing hole 22 using, for example, winches 27 over a length that provides the optimal distance between the barrel 11 and the face 22. At the same time, the hinged conduit 17 is reduced by the same distance, the hinges 19 of which are moved by the grippers 20 along the base beam 4. The conduit is shortened if it is extended to its full length, and straightened if fully shortened, i.e. recess in the opposite direction from the lintel 25. Following the movement of the movable plate 13 along the base beam 4, the developed space is fixed by moving the mechanized lining sections to the chest of the clearing hole 22. This reduces the hydraulic posts 2, then shortens the hydraulic jack 10, which is pivotally fixed at one end to the top 3, and the other, the connecting beams 7. Through the sliders 9, rigidly attached to the upper cams 3 and installed inside the guides 8, rigidly interconnected by connecting beams 7, The bridges through the trunnions are connected to the frames 5, the upper to the 3 is pulled up to the base beam 4 at a distance equal to the course of the hydraulic jack 10. Thereafter, the hydrorails 2 are pulled apart. Thus, the stage of the advancement of the powered support 1 is performed. Then the hydraulic jack 10 is moved apart and moves the frame 6 of the base beam 4 located under the shifted and released support.

So, as the coal is crushed and moves along the bottom 22 of the base beam 4 of the movable plate 13, on which the executive body is installed, the developed space is successively fixed by the sections of the mechanized support 1, and the frames 5 of the base beam 4 are sequentially moved to the chest clearing the bottom 22 to the stroke of the hydraulic jack 10. As the sections of the powered support 1 move, the chute 23 is moved with the help of the hydraulic jacks 24 connected to the hydroresistant 2. After the cutting of the chip along the entire length of the lava, support frame 1 and the movable base plate of the beam 4 enters the drift 25, which is deployed trunk 180 °, and breaking the cycle is repeated. In the process of blasting, the equipment and people in the working space are protected from the reflected jet by a fencing shield 21 fixed on the grip 16 of the movable plate 13 and moving along with it by the executive body.

The application of the proposed unit provides an optimal distance between the barrel with the nozzle and the object to be destroyed, at which the maximum performance of the hydraulic backfill is achieved. Due to the hydrotransport of the repulsed coal, the means of mechanical transportation, excavation of minerals are excluded.

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Claims (4)

1. UNIT FOR HYDRAULIC MONITORING COAL EXTRACTION, including mechanized roof support sections, each of which contains an upper and hydraulic stands, a barrel with a nozzle mounted on a movable plate, mobile lifting jacks, articulated, water pipes with high-pressure 'hoses, characterized in that, in order to increase efficiency hydraulic breakdowns due to ensuring the optimal distance between the barrel with the nozzle and the working face, the upper sections are equipped with connecting beams, guides, inside which sliders are installed with the possibility of movement, and the base beam, consisting of frames pivotally connected to each other, in the center of which pivots are mounted pivotally attached to the connecting beams, while the guides are paired by means of connecting beams and are perpendicular to the base beam, and the sliding jacks are pivotally attached to one end on tops and others on connecting beams. 2. The unit by π. 1, characterized in that it is equipped with a protecting shield, a movable plate and grips, by means of which the movable plate is installed on the base beam, while the enclosing shield § is rigidly fixed to the grips. 3. The unit by π. 1. characterized in that it is provided with a gutter connected to the hydraulic stands by means of hydraulic jacks. 4. The unit by π. 1, characterized in that it is provided with additional grips, through which the hinges of the water supply are connected to the base beam. SU „1102977