SU1278463A1 - Machine set for working steep seams - Google Patents

Abstract

MEHANIZIROVANNB1Y COMPLEX FOR abrupt layers comprising the same type of section, interconnected telescopic linkages and hydraulic jacks movement konveyerostrug mounted on a support beam associated with devices swingable fixed to the sections of the telescopic guide formed of scharnirno connected units feeders on the face, having hydraulic jacks, characterized in that, in order to increase the reliability of operation, the swing devices are fixed on a support beam, which is equipped with mechanisms the vertical position, made in the form of hinged linkages, and each mechanism for feeding to the bottom is made in the form of a frame on which the hydraulic legs are vertically mounted and parallel to the telescopic guide force telescope, the body of which is tied to a gripper in a movable manner a guide, wherein the hydraulic jack is connected with the body and the sliding element of the power telescope, and the sliding i elements of the power telescopes are attached to (L ends of the support beam).

Description

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05 00 12 The invention relates to mining, and can be used for the complex mechanization of coal mining, securing the bottom hole area and controlling the rock pressure on steep dip formations. The purpose of the invention is to increase the reliability of work. Figure 1 shows lining, plan; figure 2 - section aa in figure 1; on fig.Z - section bb in figure 1. The mechanized shield panel includes sections of the same type 1, interconnected by telescopic links 2 and moving hydraulic jacks 3, a conveyor arc 4, an articulated telescopic rail 5 mounted on the support sections, a swing device 6, devices 7 for stabilizing the vertical position and mechanisms 8 and 9 filing. The conveyor belt 4 is mounted on a detached, rigid in the direction of the cutting forces, the frame 10 and is connected with it by means of swing devices 6 and stabilization devices 7, while frame 10 is hinged from the end heads of the conveyor belt 4 through the axes 11 and 12 with a pair of feeding mechanisms 8 and 9, below, mounted on the guide 5 outside the working part of the conveyor belt with the possibility of rigid fixation by means of hydraulic posts 13 (FIG. 3) with respect to the supports and oriented with their sliding h ATS 14 along the rail 5. The rocking device 6 is a conventional hydraulic jack, connected at its ends with a conveyor belt 4 and a frame 10. Depending on the length of the conveyor belt, several of them can be installed. The stabilization device 7 is made, for example, in the form of a hinged multilink connecting the frame 10 and the conveyor 4 with the possibility of its plane-parallel variation relative to the initial position on the frame 10. Each feed mechanism 8 and 9 is a power telescope, the housing 15 of which is provided with grippers 16, interacting with the guide 5 and attached to it perpendicularly to the longitudinal axis of the spacer hydrods 13. The sliding part 14. of the feeding mechanisms is rectangular or other section, excluding its ability to rotate relative to the housing 15 around the circumference of the longitudinal axis of the telescope. A mechanized complex for steep seams mounted in a vertical or slightly inclined (10-15 °) bottomhole works as follows. Conveyor 4 set in the upper part of the lava and with the help of gidraki 13 rigidly fix the lower feed mechanism 9 relative to the lining. Then, a consecutive feeding of the upper sections 1 to the bottom unrolls a working conveyor-belt 4 mounted on the frame 10 around the axis 12 until the angle of the diagonal part of the bottom and the portion of the support located in this zone are up to 45 °. At the same time, the support sections, on which the feed mechanisms 8 and 9 are based on the guide 5, remain outside the diagonal section and their front line retains the initial inclination. After the top end operation is completed, the top feed mechanism 8 is set to the eject position, and the bottom gear 9 is set to tighten the conveyor belt 4 and, by simultaneously or separately inserting the previously unzipped feed mechanisms 8 and 9, the coal strip is dredged by the conveyor belt the swinging motion is guided by a hydraulic jack 6. At the same time, the multilink provides stability from cutting effort and plane-parallel motion of the conveyor belt in the vertical plane. The stabilization devices 7 transmit the tilting forces to the detached frame 10, which, in turn, is prevented from tilting by its base width and by holding its ends non-rotating, imming the sliding parts 14 of the feed mechanism 8 and 9. After using the full stroke of the power telescopes of the feed mechanisms 8 and 9, the sections of the support are moved in a diagonal area by a shifting step, starting with the lower section. Then, the feeding mechanisms are set up in the stated order, repeating the described operations until the conveyor belt 4 is lowered into the lower part of the lava. The lower terminal spreading operation of the conveyor belt is carried out similarly to the upper one: the difference is that the rotation is carried out around axis 12. After the complete completion of the strip of coal is completed, the conveyor belt is moved to the upper part of the lava for the next excavation cycle. The use of the proposed mechanized shield flaps allows to increase the reliability of the lining.

Claims (1)

MECHANIZED COMPLEX FOR STEEP LAYERS, including sections of the same type, interconnected by telescopic links and hydraulic jacks, a conveyor belt mounted on a support beam, connected to swing devices, a telescopic guide fixed to sections made of articulated joints, feeding mechanisms to the bottom, having hydraulic jacks, characterized in that, in order to increase the reliability of operation, the swing devices are mounted on a support beam, which is equipped with stabilization mechanisms and a vertical position made in the form of articulated multi-linkers, and each feeding mechanism for the face is made in the form of a frame on which are mounted hydrostatic and parallel to the telescopic guide is a power telescope, the housing of which is pivotally connected to the grip in which the telescopic guide is movably mounted In this case, the hydraulic jack is connected to the housing and the sliding element of the power telescope, and the sliding g elements of the power telescopes are attached to the ends of the support beam. SU ... "1278463