PL64666B1 - - Google Patents

Description

Published: 15.YJ972 64666 KI. 5 c, 15/44 MKP E 21 d, 15/44 Patent pI & EHu READING ROOM Polsklil laotftHEi »l Lift" j Inventor: Czeslaw Belec Patent owner: Zakład Konstrukcyjno-Mechanizacyjne Przemyslu Weglowe, Gliwice (Poland) Member, rolling mine support The subject of the invention is a member, walking hydraulic mining support used to protect mining faces in various geological and mining conditions, especially in low seams. Known types of hydraulic mining support consisting of hydraulic props, canopies and foundations, in which the stands forming part of one section are supported by one common canopy, are fixed in the base forming the so-called foot. In known types of mechanical casing, in order to enable the casing member to be moved along the pit of the excavation, the racks included in one section, they are mounted in one common base, in which there is also a device for moving the housing. which, in more difficult mining and geological conditions, such as iron ore mines, where there are low seams with a constantly changing spag configuration, makes it impossible to use a mechanical support. Support stands do not have the possibility of crossing obstacles encountered on their way. in the form of faults, protrusions, inclination, or even a conveyor conveyor working in the wall between the stands. One section of the casing, which essentially forms one member of one canopy supported by two or more props, is structurally a rigid non-compliant frame that is exposed to the adverse effects of various complex stresses. Supporting the ceiling over the entire width of the wall, supported at two points with props, is not only slightly flexible, but also exposed to an unfavorable distribution of the load concentrated forces, which is emphasized above all by larger unevenness of the slopes. pu. Particularly dangerous phenomenon of the unfavorable action of concentrated forces occurs during mining with mining machines when moving individual sections of the support, because the roof is often exposed over a distance of several meters, simultaneously behind the advancing machine, in addition, securing the roof at the side of the roof during the cooperation of the support with mining machines is performed only with the help of The phenomenon of concentrated forces acting on the rails and complex stresses acting on the stands, therefore necessitates the use of both the roofs and the bases of massive stands, which contributes to an increase in the weight and dimensions of the casing, and thus to increase the force needed to carry out specific operations in mechanical mining with the use of a walking mechanical support as mining works progress. This circumstance undoubtedly also affects the possibility of using the known mechanical mining support in low seams, the characteristics of absorbing ore mines. Moreover, since the uprights are fixed permanently in a common base in one section, it is not possible to concentrate the uprights in one section in order to increase the security of the enclosure. There are also types of casing that slide along the ceiling and not along the spag. However, in the 64,666,664,666 gSrhtcrych conditions that exist in the mining of ores, this type of support is also not applicable, primarily due to the dimensions of the roofs and the impossibility of lowering them. It should also be noted that in the existing solutions of the casing, the sliding system, located either in the common foot of the stands section, or in the common canopy, is closely related to the supporting structure of the casing and is exposed to all loads carried by these load-bearing structures. And since all the sections of the support closely cooperate with each other by means of a common shifting system, adjacent feet cooperate with each other, in the event of failure of one section, the adjacent cooperating sections are stopped, which in effect stops the entire support in the excavation. Thus, so far there are objective difficulties resulting from the prevailing geological and mining conditions in the mining of ores, preventing the use of mechanical, rolling mining support, and thus increasing the mechanization level of mining works. The invention removes the resulting difficulties, allows the use of walking mechanical of the mining support in various mining and geological conditions and with various operating systems, especially in excavations with a high inclination of the deck, with occurring faults, it allows for any concentration of the stands in mining excavations, guarantees reliable and permanent protection of the roof while using the existing parameters and improves the work of the casing by making the displacement system independent of the supporting system of the casing structure. In very difficult conditions it enables the use of a mixed casing, facilitates the insertion of the casing into the excavation, limits the number of activities necessary to replace damaged elements in. This casing can be used as movable floor strips protecting the ceiling in the wall along the sidewalks due to any number of props in the section, and thus any length of the ceiling support. The solution to the above problem according to the invention consists in the use in the casing a casing frame for detachable mounting of the uprights, consisting of a hydraulic actuator and attached to it on both sides parallel fastening elements, for example in the form of cylinders, in which the placed uprights can freely slide vertically, lifting the foot or heads. Thus, the shifting system does not depend on the working arrangement of the structure of the supporting casing and does not transfer the loads of the stand and the canopy. The hydraulic shifter is a cylinder with a piston and a piston rod slidably placed inside the armor, whereby the cylinder rod is connected in the front part with the armor, which by The operation of the piston rod allows the armor of the shifter to slide forward and the next one to move the cylinder. The housing part, composed of a common shifter of two stands placed in the fastening elements, forms two working half-joints, one of which has a fastening element on the armor and with it forms a draw-out half-piece and the other has a fastening element on the cylinder to form a draw-out member. The casing section can have any number of members, then the leading unit is a two-piece chain and four stands. The remaining parts, attached to the casing with skeletons, may have a guide, instead of hydraulic shifting, which allows the casing to be moved under the action of the shifter in the leading binary. The invention completely solves the problem of using a mechanical mining support regardless of the existing geological and mining conditions in the pit, because the possibility of any vertical movement of the stands in the frame of the support and the simultaneous lifting of the base and the head of the stands makes the ability to move the support along the pit or the pit ceiling independent of the configuration of these. In addition, the spatial arrangement of the uprights in the casing skeleton ensures the stability of the individual casing sections, which cannot be said for the linear arrangement of the section casing stands. The subject of the invention is shown in the drawing, where Fig. 1 shows a half-section of the casing section working in parallel consisting of four cooperating racks, two of which, one leading one, is folded and the other two, one of which is visible in the drawing is stretched, Fig. 2 is a cross-sectional view of the casing frame with two visible tables , one of which is stretched before the step and the other after the jump, and Fig. 3 is an axial section of the frame of the casing seen from above, with one of the stands being shown at their maximum extension, and the others being moved in the place of the current expansion of the stands The housing according to the invention has a skeleton, which constitutes the fastening elements 1 and 2, for example in the form of cylinders in which racks are mounted. 3 and 4 and the hydraulic shifter 5, 6, 7, 8, which in one section connects the individual fastening elements and is used to move the entire housing. The shifter has a reinforced cylinder 5 inside which the piston 6 moves, seated on the piston rod 7. The piston rod 7 is connected to the plate 8, in which the cylinder 5 is located and which protects the entire shifter against damage. and carrying the weight of the fastening elements together with the stands during the movement. The suitably reinforced cylinder 5 also has a similar task. The fastening elements 1 and 2 are arranged next to each other on the slider on both sides of the shifter, with the elements 1 on one side of the shifter fastened to the cylinder 5, while the elements 2 are attached to the shifter. ¬ fastened to the armor 8. The smallest component of the casing, i.e. a member, consists of two stands 3, 4 fixed on both sides of the shifter 5, 6, 7, 8. However, one casing section supporting the roof of the excavation along the entire length of the wall constitutes at least four stands 3 and 4, embedded in four fastening elements 1, 2 of the casings, connected with one common shifter 5, 6, 7, 8, constituting a basic bipartite, with the racks embedded in the fastening elements 1 on one side of the shifter and mounted on the armor 8 constitute the withdrawable part, while the stands embedded in the fastening elements 2 on the other side of the shifter, and mounted on the cylinder 5 constitute the sliding part of the two-piece. there can be any number of elements, depending on the needs, which have a common switch. With the greater number of sections in a section, the first two 64666 are the guiding two-section, having a common hydraulic shifter. The remaining sections, composed of at least two side-by-side working tables, attached with frames, may have guides in the place of the hydraulic shifter, which allow the entire section to be shifted due to the operation of the hydraulic shifter. by means of the piston rod 7, it advances forward under the action of the pumped oil, simultaneously extending the armor 8 with the fastening elements 2 mounted thereon with the stands 4 loosened before commencing the movement. In this way, the withdrawable part is moved to the front, during which the stands 3 of the sliding part are stretched and support the ceiling. Then, after the sliding part has been fully extended, the stands 4 are stretched with the armor 8 to support the ceiling, while the stands 4 are slackened and pulled away. of the cylinder 5 into the outer casing 8 and the sliding part towards the withdrawable part. After full adjustment, the stands 3 are stretched back and then work in parallel with the stands 4. The stands 3, 4 have the possibility of sliding inside the fixing elements 1 and 2 up and down and thus take the correct position depending on the configuration the ceiling or spag of the excavation. PL PL

Claims (7)

1. Claims 1. The member, rolling mechanical support for securing roofs in mining excavations, has been characterized by the fact that for fixing the stands (3 and 4) it has a casing skeleton, which constitute the fastening elements (1, 2) of the stands (3, 4), fixed on the hydraulic shifter (5, 6, 7, 8), the shifter connecting the fastening elements (1,2) being a shifting system of the mining housing. 2. Housing according to claim The apparatus of claim 1, characterized in that it has fastening elements on the casing (8) of the shifter, forming together with it a withdrawable member, and on the cylinder (6) of the shifter, forming with it the advancing part of the housing. 3. Housing according to claim Characterized in that, with the fastening elements (1 and 2), the stands (3, 4) are any means for fastening, for example in the form of cylinders. 4. Housing according to claims 1, 2 and 3, characterized in that the stands fixed in the fastening elements (1, 2) are vertically movable. 5. Housing according to claims 1, 2, 3 and 4, characterized in that they have an arbitrary number of parts consisting of a slide (5, 6, 7, 8) and fastening elements (1 and 2) for fixing the stands (3 and 4). 6. Housing according to claims 1, 2, 3, 4 and 5, characterized in that, for a greater number of parts, the leading unit is a two-part consisting of a hydraulic chain (5, 6, 7, 8) and four hydraulic props (3, 4) fixed on fastening elements ( 1, 2). 7. Housing according to claims 6 is characterized by the fact that with a greater number of casing members, two of which are a leading bipartite equipped with a hydraulic shifter, the other members attached by casing skins are equipped with guides. PL PL