PL77226B2 - - Google Patents

Description

Priority: Application announced: May 15, 1973 Patent description was published: July 31, 1975 77226 KI. 5c, 23/00 MKP E21d 23/00 READING ROOM of the Patent Office ftlsklaj Izeuffog? -. ' «| L,;. Aj Inventors: Wlodzimierz Sikora, Zygmunt Babinski, Wieslaw Galocz, Tadeusz Jagielski, Ludwik Juras, Leszek Matu- siak, Jan Perek Authorized by a temporary patent: Central Mining Institute, Katowice (Poland) Mechanical sliding casing for decks The subject of the invention is a mechanical sliding casing intended for wall mining of coal decks with an inclination from 25 to 50 ° with the use of a hydraulic proppant. In coal seams with a slope exceeding 20 °, there were After the ascent, there is a constant threat from falling rock fragments, both from the slope and from the upper face of the excavation. This risk increases with increasing inclination of the deck, and for an inclination of 45 ° theoretically, the risk from the side of the side should be the same as from the ceiling. In fact, it is larger, because when the deck is cut, the chisel cannot be permanently secured like the roof of the excavation. Previously, in steeply sloping decks, coal is processed using the method of short dressing fronts, guided over the extension, in which the ceiling and upper hewn the excavation is covered with a permanent wooden housing. The main disadvantage of using a wooden casing in steeply inclined decks is, inter alia, high labor consumption, significantly reducing the size of the extraction and efficiency, and the impossibility of moving the entire conveyor belt. A further disadvantage of using a wooden casing in such decks is the impossibility to obtain a strong expansion of the casing stands, as a result of which they are often broken by rolling lumps of coal, which endangers the safety of work and may cause the collapse of the roof rocks. The object of the invention is to construct a mechanical support with a backfilling dam, adapted to work in heavily sloped decks, which would effectively protect both the roof of the excavation and its upper side. This aim was achieved by means of the mechanical support according to the invention. The essence of this casing consists in the fact that from the side of the side of the wall, each set of it has a cover attached to the upper boom by means of a lever, and the cover is pressed against the wall by a hydraulic actuator. In addition, the piston rod of the actuator located inside the upper canopy has a slider that moves in an oblong hole located in the lower canopy obliquely to its longitudinal axis. On the other hand, from the side of the liquidated space there is a filling dam which cooperates with the casing and is connected with the working platform and with the conveyor belt located on this platform. In the side parts of the upper canopy there are spring-loaded elements which keep the canopy in the upper position during their extension. The advantage of such a structure is, among other things, that it allows mechanization of the most labor-intensive activities in strongly inclined decks, and at the same time effectively protects both the ceiling and the upper side of the wall. By using the casing 77 22 677 226 according to the invention, the length of the working face has been greatly extended, which consequently allows to increase concentration, efficiency and reduce the cost of production. An additional advantage of the use of a mechanical sliding housing is the possibility to move the entire floor dam and the conveyor belt. Thanks to the use of a movable cover, the upper side of the wall was reliably secured against falling off rock fragments. On the other hand, by using a slider connecting the actuator piston rod with the lower canopy, the possibility of a much greater mutual deflection of both canopies in relation to the previously known similar connections is obtained. The subject of the invention is shown in an exemplary embodiment in the drawing, in which Fig. 1 shows casing set built into the wall in a side view, fig. 2 - connection of the actuator piston rod with the canopy, fig. 3 - cross-section along the line A-A marked in fig. 2, fig. 4 - spring device supporting the canopy in the upper position, and Fig. 5 is a section along the line B-B in Fig. 4 As shown in the drawing, the set of a mechanical sliding housing consists of two roofs I and 2 connected to each other by a hydraulic actuator 3 located inside one of the canopies. The cylinder of this actuator is articulated with the upper canopy 2, and the piston rod with the lower canopy 1 by means of a slide 4 sliding in an elongated hole 5 inclined to the longitudinal axis of this canopy. At the bottom, both canopies are supported by hydraulic props 6 connected to these canopies by means of joints. In addition, the upper canopy 2 is laterally equipped with guides 7 on which the lower canopy 1 slides. Each set of casing also has extension arms 8 and 9 on both sides, the upper extension arm 9 being provided with a movable shield 10, articulated with this boom by means of a lever 11 and controlled by a hydraulic actuator 12. On the side of the side of the casing, a movable platform 13 is attached to the liquidated space. On the side of the liquidated space there is a filling dam 14 cooperating with a casing to which the deck 15 is attached together with a conveyor belt 16 arranged thereon. Moreover, for supporting the canopy in the upper position during their extension, spring elements 17 are attached to the sides of the canopy 2, which can be replaced by a locking device or by a hydraulic mechanism. The housing according to the invention functions as follows. After the holes in a given section of the wall have been blown off, the mined coal rolls down a slope onto the conveyor belt or is scraped onto this conveyor. Then the section of the wall that has been blown off is secured with the housing. To this end, after sizing, the top part of the housing assembly is moved to this field. On the other hand, the lower canopy remains in the lower position, only after the coal strip has been selected along the entire wall, the lower parts of the casing joints and the backfill together with the belt conveyor are lifted upwards. The void formed by the backfilling dam is removed by means of a hydraulic backing and a new mining cycle begins. PL

Claims (2)

Claims 1. Mechanical sliding casing for coal decks with high inclination, especially inclined at an angle of 25-50 °, composed of two reciprocally extendable canopies connected to each other by a hydraulic actuator, characterized by the fact that on the mined side the side wall has a movable cover (10) attached to the upper boom (9) by means of a lever (11), pressed against the side wall by a hydraulic actuator (12) and has a slider (4) connecting the piston rod of the actuator (3) located inside the canopy (9) ) with the lower canopy (1), which slides in an oblong hole (5) inclined to the longitudinal axis of the canopy, while on the side of the liquidated space it has a supporting dam (14) cooperating with the casing and equipped with a working platform ( 15) together with a card conveyor (16). 2. Mechanical housing according to claim 1, characterized in that in the side parts of the upper canopy (2) there are fastened spring elements (17) to keep the canopies in the upper position while they are being extended. 15 20 25 30 35 40KI. 5c, 23/00 77 226 MKP E21d 23/00 Fig. 1KI. 5c, 23/00 77 226 MKP E21d 23/00 enKI. 5c, 23/00 77 226 MKP E21d 23/00 n35 PL