PL163617B1 - Method of regulating the width of the floor track, and mechanized mine lining with a adjustable width floor track - Google Patents

Abstract

1. Mechanized mine lining equipped with devices allowing to adjust the width of the roof path, characterized in that it comprises an articulated joint (3) joining a slidable system (4) with the sill piece (5) and sockets (8 and 13) for ends (11) of the articulated joint (3), whereas the sockets (8 and 13) are situated in various spots along the sill piece (5).<IMAGE>

Description

The subject of the invention is a mining mechanized support with an adjustable width of the roof path, used in underground mining when mining minerals with a longwall system.

In the so-called with the central joint, it is necessary to regulate the width of the ceiling path, i.e. the strip of the exposed ceiling, which is located between the face of the wall and the canopy of the housing. The end of the canopy of such a support makes an arc when changing the height of the support, which causes that in workings of different heights, the widths of the roof path are different. These differences cannot be too great because the width of the path is determined by the mining regulations dictated by the needs of ensuring the safety of miners. Even in those housings in which the end of the canopy moves along a vertical line, or close to it, e.g. in housings with a lemniscate rectangular system, there is sometimes a need to correct the path width. This need results from the geological conditions causing that the casing is placed more or less inclined in relation to the face of the wall, which results in a narrower or wider roof path.

In known powered supports, the width of the roof path is adjusted by changing the distance between the wall support and the haulage conveyor cooperating with it. This change is accomplished by changing the length of the sliding system that connects the housing with the conveyor. It is obvious that it is not the change in the length of the sliding system that occurs when the housing or the conveyor is moved in each cycle of the housing operation, but that the length of the system in the state before or after the housing is moved to the conveyor is changed.

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The Polish housing of PIOMA-25/45-Oz has a sliding system consisting of a box beam and a hydraulic shifter protruding from its interior. The beam has several slots in which the shifter can be attached. Fastening the shifter into different slots causes shortening or lengthening the sliding system. The beam is a relatively heavy and large element, which affects the cost of making the casing and also contributes to the considerable nuisance of work related to the regulation of the path width.

The aim of the invention is to reduce the cost of making the housing and to reduce the nuisance of its operation.

The essence of the casing according to the invention consists in the fact that the device enabling the regulation of the width of the roof path forms a joint connecting the sliding system with the floor runner and seats located in various places along the floor runner. The sockets are shaped and sized to accommodate the ends of the joint. The hinge is attached to various places along the floor.

Preferably, the sockets are made in special plates detachably attached to the internal walls of the chuck. The sockets may have the form of bow cutouts directed with the arms downwards. The travel of each plate can be limited here by at least one bolt passing through an opening made in the plate and in the inner wall, and at least one cover plate fixedly attached to the inner wall and extending from outside to the plate. It may be that the caps are two and overlap the lower corners of the plate and the pins are two and pass through the holes made in the upper corners of the plate. It may also be that the pin is stuck in the top center of the plate and the tabs are two and overlap the vertical sides of the plate.

In another version, the casing has adjustable sockets mounted on the internal walls of the floor. Preferably, each indexing seat is positioned between two of a series of stops located on the inner wall. The socket is fastened with a wedge, stretched in the groove made in the adjustable socket and in the limiter.

Changing the width of the floor path by shifting the joint connecting the sliding system with the base of the housing allows for the elimination of the previously used beam with sockets. Moving the articulated joint to different places on the floor is easier than in traditional systems. The production of joints for the joint in plates detachably attached to the floor floor allows for interchangeable use of plates with different spacing of seats or with different numbers of seats - depending on the needs. Bow-shaped sockets directed with the arms down are technologically simple. For the same reasons, it is advantageous to fix the plate with a pin and caps. The solution in which, instead of a series of sockets, in the floor floor, adjustable sockets are used, is cheap because it is less material-consuming. Fastening the adjustable seat with a wedge is advantageous for assembly reasons.

An embodiment of the housings according to the invention is shown in the drawing, in which Fig. 1 shows schematically a set of housings in the so-called the central joint in a side view, Fig. 2 - a fragment of a floor runner with a series of seats together with a fragment of the sliding system in longitudinal section with a plane passing through the axis of symmetry of the floor runner and the sliding system; Fig. 3 shows the same part of the floor runner and the sliding system in a top view; Fig. 4 shows a fragment of the floor runner with another solution of a series of seats, in cross-section with a plane running along the centerline of the floor runner; Fig. 5 - a fragment of a floor runner with an adjustable seat, cross-section with a plane passing through its axis of symmetry; Fig. 6 shows a fragment of a floor runner with an adjustable seat, in cross-section with a plane passing through the ends of the joint and through the slider.

The width S of the roof path between the end of the canopy 1 of the support and the face 2 of the excavation wall is adjusted by changing the location of the joint 3 connecting the sliding system 4 with the floor runner 5.

In the example shown in Fig. 21 3, the change of the location of the articulation 3 is carried out by means of plates 6 attached to the inner walls 7 of the floor 5. Each plate 6 has four slots 8 in the form of bow-shaped cuts open downwards. It is attached to the inner wall 7 by means of two covers 9 and a pin 10. The covers 9 have an angle-shaped profile and one arm of the profile overlaps the plate 6 and the other is welded to the floor 5. The bolt 10 is placed in the hole made in the plate. 6 and in the inner wall

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7. The plates 6 are placed opposite each other in the floor 5. In the case of this housing, the sliding system 4 is very simplified because it consists only of a hydraulic shifter and a joint 3. Endings 11 of the joint 3 are embedded in the sockets 8. The shelf 12, which is located under the shifter, does not allow the joint 3 to slide out of the slots 8 downwards .

When it is necessary to change the width S of the floor track, the bolts 10 are pulled out, the plates 6 are lifted upwards and the joint 3 is moved into place by means of a hydraulic shifter. After that, the plates 6 are inserted between the caps 9 and at the same time slipped over the ends 3 and then the pins 10. The plate 6 shown in Fig. 4 is attached to the inner wall 7 slightly differently. The covers 9 overlap the plate 6 at its lower corners while two pins 10 are located at the upper corners.

In order to change the mounting location of the joint 3, it is sufficient to swivel the plate 6 upwards after removing one pin 10. In the solution shown in Figs. 5 and 6, an adjustable seat 13 is used. It is seated between two of a series of vertical stops 14 attached to the inner wall 7 of the floor 5 and fixed with a wedge 15 stretched in a groove 16 made in the adjustable seat 13 and in the limiter 14. The stops 14 are mounted opposite to each other on the internal walls 7. To change the place of the joint 3, a wedge 15 is punched, the adjustable seats 13 are pulled out of the stops 14 and the joint 3 is moved is in a different place and there the seat 13 is fastened again with the wedge 15.

The invention will find application mainly in casings with a central joint, and especially in those equipped with a solid floor, i.e. equipped with a wide bottom plate and a shelf 12.

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fig 6

fig 4

Fig. 5

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Publishing Department of the UP RP. Circulation of 90 copies. Price: PLN 10,000

Claims (9)

Patent claims 1.Min's powered support equipped with devices for adjusting the width of the roof path, characterized in that the device forms a joint (3) connecting the sliding system (4) with the floor (5) and seats (8 and 13) for the ends (11) of the joint ( 3), with the seats (8 or 13) located in different places along the floor (4). 2. Mining casing according to claim 5. A machine as claimed in claim 1, characterized in that it is provided with a plurality of seats (8) arranged on both inner walls (7) of the floor (5). 3. Mining housing according to claim 2. A machine according to claim 2, characterized in that the seats (8) are made in plates (6) detachably attached to the inner walls (7) of the floor (5). 4. Mining housing according to claim 3. The socket according to claim 3, characterized in that the seats (8) have the form of bow cutouts directed with the arms downwards. 5. Mining housing according to claim 3. The plate (6) as claimed in claim 3, characterized in that the movements of the plate (6) are limited by at least one pin (10) passing through an opening made in the plate (6) and in the inner wall (7) and at least one cap (9) attached to the inner wall (7) overlapping from the outside behind the plate (6). 6. Mining casing according to claim 5. The plate as claimed in claim 5, characterized in that the caps (9) are two and overlap the lower corners of the plate (6) and the pins (10) are two and are located in the upper corners of the plate (6). 7 Mining housing according to claim 5. The plate according to claim 5, characterized in that the pin (10) is inserted in a hole made in the central, upper part of the plate (6), and the caps (9) are two and overlap the vertical sides of the plate (6). 8. Mining housing according to claim A floor according to claim 1, characterized in that its floor (5) has intermittent seats (13) fixed on the inner walls (7). 9. The mining housing according to claim 8. The device according to claim 8, characterized in that each adjustable seat (13) is placed between two of a series of stops (14) attached to the inner wall (7) and is fixed by a wedge (15) extending into a groove (16) made in the adjustable seat (13). ) and in the limiter (14).