RU2078939C1 - Device for transverse displacement and holding of base of powered support unit - Google Patents

Abstract

FIELD: supporting of breakage faces, mainly, under conditions of inclined angle of bed dipping. SUBSTANCE: device for transverse displacement and holding of base of powered support unit includes base consisting of two interconnected beams, lever, hydraulic cylinder installed with the help of vertical axis on the side of base beam and located across the base longitudinal axis. One side of the cylinder is secured to beam, and the other side is hinged to lever bracket on the side of beam. Lever is hinged with shaft. Reinstallation of the neighboring beam of base is possible. Removable shaft may be installed in horizontal cylindrical hole made in beam of base. It may have recess from one side in which semirings and fixing holder are located, and from the other side, it may have lateral hole for vertical pin which connects shaft with lever. EFFECT: higher efficiency. 3 cl, 8 dwg

Description

 The invention relates to mining and can be used in mechanized roof supports for the extraction of minerals underground from the working faces, especially located in the conditions of an inclined angle of incidence of the reservoir.

Known mountain mobile lining, including a base, a visor and racks containing a shock absorber pivotally mounted on the end of the base, protruding in the transverse direction from the side of the base. The other side of the base provides a supporting surface in contact with the shock absorber of the adjacent support section. The shock absorber is driven by a hydraulic cylinder, which can also hold the shock absorber against the abutment surface with a force sufficient to prevent lateral displacement of one section of the lining relative to another. A shock absorber driven by a hydraulic cylinder can be used to move one section of the lining up in relation to another [1]
The main disadvantage of the known technical solution is the lack of the ability to remount the shock absorber on one side of the base of the lining section on the other in mine conditions. Meanwhile, in the conditions of a mine, when re-assembling lavas from one working face to another, the direction of inclination of the face may change, which will require a shift of the shock absorber. It is practically and economically inexpedient to issue sections or bases of the lining section from the shaft to the surface for moving shock absorbers from one side of the section to the other. Leaving the shock absorbers from the side of the downstream support section of the lining does not allow editing the upstream movable section, which leads to the sliding, tipping or excessive inclination of the support sections in the direction of the formation fall.

The closest to the claimed technical essence and the achieved result is a hydraulic guide support for the walking support section, including a base consisting of two connected beams, a lever pivotally mounted using a vertical axis on the side of the base beam and placed across the longitudinal axis of the base of the hydraulic cylinder one side of which is pivotally mounted on the beam, and the other is located with the possibility of interaction with the inner side of the lever [2]
In the known technical solution, as in the previous one, there is no possibility of re-mounting by a part of the device for lateral displacement and holding the base of the section of the powered roof support from one side of the base of the section to the other side without issuing the base of the roof support sections from the shaft. This drawback reduces the performance of the lining and its scope, especially in conditions characterized by frequent remounting of the lining with changes in the direction of inclination of the working face.

 The essence of the invention lies in the fact that the outer side of one of the base beams is equipped with a removable roller, the lever is pivotally connected to the roller and from the side of the beam is equipped with a bracket pivotally connected to the other side of the hydraulic cylinder, with the possibility of re-mounting the roller, lever and hydraulic cylinder to an adjacent base beam.

 In addition, the roller can be installed in a horizontal cylindrical hole made in the beam of the base.

 In addition, the roller on one side can be provided with a groove with half rings located in the groove and a retaining clip, and on the other hand it is made with a transverse hole for a vertical finger connecting the roller with a lever.

 This technical solution is aimed at expanding the scope, increasing the productivity of powered roof supports on formations with the direction of inclination of the working face changing when lava is being reassembled from one face to another by re-mounting the device from one side of the section base to its other side, which is located on the side of the working face rebellion. Indeed, in the existing mechanized roof supports designed for working out inclined formations, for straightening the roof support section when they are tilted and sliding, the retractable sides in the tops, ceilings and section guards, as well as retractable devices similar to those proposed in the base of the roof support sections, are used.

 Editing sections must necessarily coincide in time with the movement of sections towards the face as the excavating machine moves, which are usually made from top to bottom of the lava. At the same time, devices designed to edit the support sections located in the upper sections, ceilings and fences can only work when the support sections are moved during unloading of the section from the spacer, and therefore must be located in the support sections from the side of the falling lava, so that they can be repelled from the bottom, crushed section lining. Accordingly, devices intended for lateral displacement and holding of the bases should also be located on the same side of the section. Naturally, in the case of re-installation of powered roof supports from one face to another, the direction of the face may change to the opposite, and in this case, re-equipment of the sections will be required, that is, the transfer of devices for straightening the section, including at the base of the section from one side of the section to another . Existing devices for leveling the bases of the lining sections require capital work related to the issue of lining sections to the surface when remounting to another face. The device proposed in this technical solution at the base of the section allows you to transfer the device from one side of the base to the other side directly by rearranging, without issuing a lining section to the surface.

 The technical result of the claimed technical solution is expressed in the simplification and reduction of the cost of re-mounting the device for lateral displacement and holding the base of the section of the powered roof support from one side of the base of the section to its other side. At the same time, the speed of remounting the mechanized complex from one lava to another increases, which reduces the loss of mineral production, production costs and increases the load on the face. In addition, the transfer of the device from one side of the base of the section to the other allows you to increase the performance of powered roof supports and expand the scope.

 Figure 1 shows the base section of a powered roof support, equipped with a device for lateral displacement and retention, plan view; in FIG. 2, the assembly A in FIG. one; figure 3 view BB in figure 2; figure 4 the location of the devices in the bases of the sections when editing bases, view in plan; figure 5 diagram of the editing of the bases of the sections of the lining with a left-side location of the bottom; Fig.6 is the same as in Fig.5, a view in plan; Fig. 7 is a diagram of the editing of the bases of the sections of the powered roof support with a right-handed bottom face; Fig.8 is the same as in Fig.7, a plan view.

 A device for laterally displacing and retaining the base of a powered roof support section includes a base 1, consisting of two beams 4 and 5 connected by a cross member 2 and a tie 3, cross member 2 has a rotary support 6, to which one side of the hydraulic jack 7 is connected, the other side of which is connected with a ski guide 8 connected to the face conveyor 9, which is the base of the lining. In the outer side sheet 10 of the beam 4 of the base 1 (or beam 5) there is a horizontal cylindrical hole 11 in which the removable roller 12 is placed. On one side of the removable roller 12 there is a transverse hole 13 for the vertical pin 14 connecting the removable roller 12 with the lever 15 . On the other hand, the removable roller 12 is provided with an annular groove 16, in which two half-rings 17 of the same design are placed. The half-ring 17 is externally surrounded by a ferrule 18, fixed from falling out of the cotter pin 19. To the inner side sheets 20 of the beams 4 or 5 from the inside the lugs 21, identical in design, are rigidly fixed. The lever 15 from the side of the beam 4 or 5 is equipped with a bracket 22, which is pivotally connected through an opening 23 made in the outer side sheet of the beam, with one side mounted across the longitudinal axis of the base by a hydraulic cylinder 24, the other side of which is also pivotally connected to the eye 21.

 The operation of the device is as follows. Following the movement of the shearer (not shown in the drawing), working on the dip of the reservoir carrying out the extraction of minerals, the sections of the mechanized lining are pulled out by upsetting the section and pulling the base 1 to the downhole conveyor 9 using a hydraulic jack 7. Simultaneously with the extension located relative to the combine mechanized lining sections make corrections from the base of 1 section from sliding towards the falling side of the formation by turning on hydraulic cylinder 24 of this section. In this case, the hydraulic cylinder 24 through the eyelet 21 is repelled from the inner side sheet 20 of the beam 4, through the hole 23 interacts with the bracket 22 of the lever 15 and rotates it relative to the axis of the vertical finger 14. The lever 15 in turn interacts with the base 1 of the underlying, extended and non-moved support section and pushes away from him the base of the overlying movable lining section. The base 1 of the movable section is shifted in the transverse direction towards the uprising of the formation until it is set to its normal position, after which the hydraulic cylinder 24 is locked and the base of the section is moved close to the downhole conveyor 9. After the movement of the base 1 of the overlying section, the hydraulic jack 7 of this section is locked, and the hydraulic cylinder 24 put on the drain to allow lateral displacement in the uprising of the base 1 of the underlying section, to the movement and editing of which from creeping are present after the feat cleaning shearer. At the end of the movement of the underlying support section, the hydraulic cylinder 24 of the base 1 of the previously moved overlying section is turned on until the lever 15 interacts with the beam 5 of the base of the underlying section, after which the hydraulic cylinder 24 is locked. This operation is performed in order to prevent the base 1 of the overlying section from creeping down, that is, to keep the base of the lining section from slipping. In this way, in the manner described above, from top to bottom, the lining sections are moved with the transverse displacement of the bases 1 from bottom to top from their sliding along the entire front of the working face.

 In the case of remounting the mechanized lava lining from one face to another, the direction of inclination of the working face changes to the opposite. In this case, the device is re-mounted from one beam, for example 4, of the base 1 to another, located on the falling side of the face, for example, beam 5. To do this, remove the cotter pin 19, remove the clip 18 and remove the half rings 17 from the groove 16 of the removable roller 12. Then, the hydraulic cylinder 24 is disconnected from the bracket 22 of the lever 15 and from the eye 21. The removable roller 12 is assembled with the vertical pin 14 and the lever 15 from the cylindrical hole 11 in the outer side sheet 10 and the hydraulic cylinder 24 is removed through the hole 23. Mounting the device in the bulk e 5 of the base 1 is produced in the reverse order of its dismantling from the beam 4.

 The operation of the device for editing sections of powered roof supports with a transverse displacement of the bases from sliding when the face of the lava changes is carried out in a sequence similar to that described above.

Claims (3)

 1. Device for lateral displacement and holding of the base of the section of the powered roof support, including a base consisting of two connected beams, a lever pivotally mounted using a vertical axis on the side of the base beam and placed across the longitudinal axis of the base of the hydraulic cylinder, one side of which is pivotally fixed on the beam, characterized in that the outer side of the base beam is provided with a removable roller, the lever is pivotally connected to the roller and provided with a bracket on the side of the beam, pivotally connected with the other side of the hydraulic cylinder with the ability to remount the device on an adjacent base beam.  2. The device according to claim 1, characterized in that the removable roller is installed in a horizontal cylindrical hole made in the base beam.  3. The device according to claims 1 and 2, characterized in that the removable roller on one side is provided with a groove with half rings located in the groove and a fixing clip, and on the other hand is made with a transverse hole for a vertical finger connecting the roller with a lever.

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