DE509810C - Process and device for the extraction and extraction of lignite and other minerals - Google Patents

Description

6 λ.! "■ 'L

ISSUED OCTOBER 13, 1930

Albert Hamel in Meuselwitz, Thür.

and other minerals

It is already known that lignite and other minerals are being dismantled from a guide line arranging a to protect against the collapse of the hanging wall on To win and promote work impact provided protective shield.

The invention relates to a method of the aforementioned type. According to the invention the material that is above the cross-section of the guide line is simultaneously Skiving automatically and continuously over the entire width of the joint. to

For this purpose, an approximately transverse to the guide section is advantageously arranged on the entire work joint adjacent as narrow as possible and consisting of cutting chains, cutting troughs or the like Schrämwand used. This results in a perfect extraction of the goods and especially in comparison to known ones

ao versions achieved a significantly greater performance. The one working on the work stroke and The cut wall, kept as narrow as possible in the mining direction, supports the working joint against breaking and, due to its narrow design, offers the pressure of the hanging wall a small target area. The cutting wall follows the working joint to the extent that the pending mineral is won. The cutting wall is carried by one or more in the Guide line for moving caterpillar tractors. The cut-loose goods are after the Guiding routes funded and passed on to any funding means there. If that Hanging sags in the dismantled rooms, there can be no vertical pressure on the Exercise a flat sloping wall, because it is tight and flat on the working joint and a small one Offers attack surface. If the hanging wall should lie on the Schrämwand at the joint, the Schrämwand will intersect free again. The mountains falling behind the Schrämwand do not get into the Schrämwand, because it is protected by a rear wall. The falling mountains promotes its advance through its pressure against the rear wall of the cutting wall. The guide line will be expanded as a normal line, which as a path for the tug and. the conveyed good is used. · It is used in usual Well-crafted. Some of the last fields before the mining sites, the so-called Protective fields are created by juxtaposing slabs, if possible with the omission of the rind distortion Door frames secured. This results in the protective fields which are adjacent to the dismantling and which are particularly pressurized a reliable expansion based on experience. The door frames recovered from the place of dismantling are exchanged in the fields that are still unprinted by removing the rind distortion. The present proceedings and its facilities enable a continuous, automatic and mechanical

African degradation \ ^r ermeidung complicated and cumbersome stopes. However, it can also be used in conjunction with excavation chambers, which results in very significant advantages for the excavation chambers. Namely, contrary to the cutting and conveying devices previously proposed for excavation chambers, the cutting wall significantly reduces the space requirement inside and outside the chambers. The sloping walls are only located in the narrow gap between the excavation chamber and the excavation joint, while the conveying device for passing on the goods (e.g. belts, etc.) and their drive means, as well as all other drive machines, can be accommodated in the access route (guide route). As a result, the excavation chamber only needs to support the hanging wall and the joints behind the sloping wall, so it can be kept very flat and is then stressed like a pusher in the break. The mining chamber therefore changes into a wandering row of stamps. Furthermore, the cutting wall allows a completely continuous advance of the excavation chambers or the moving rows of punches, thus preventing the friction of rest and the risk of jamming.

The invention is illustrated in an exemplary embodiment in its application in Brown coal shown on the drawing.

Fig. Ι and 2 is a related front view of the sloping wall of two Guide lines intended to act, for which FIG. 3 serves as a section drawn. Fig. 4 is a top plan view of Fig. 1. Fig. 5 is a sectional side view according to Fig. 1.

Fig. 6 shows the arrangement of the method with two guide lines (on a smaller scale) .

Fig. 7 shows the upper part of the cutting wall with the spreading devices (in a larger Scale).

The caterpillar tractors 2 and 2 _a drive in the guide lines i _a and 1, driven by electric motors. On the crawler tractors, the bucket elevators 4, 4 _a and 4 ₆ ge-Jenkig are built, so that the facilities are insensitive to lower altitude fluctuations of the tractor. The support frame of the cutting and conveying device, which is insignificant for the invention, is omitted from the drawing for the sake of clarity. The bucket elevators have guided buckets or buckets 5, which are pulled by chains with a small pitch. The cups 5 are provided with cutting teeth and extended sides 6 (Fig. 3), the purpose of which is that the bucket elevator is sufficiently cut free for its advance. Above the Becker factory are the end-Josen cutting chains 7, which have the smallest pitch, are provided with cutting teeth and are guided over gear wheels 8 of the smallest diameter. Spreading devices 16 can be pivoted from the supporting frame into the gaps between the individual cutting chains. The protective wall 9 is located behind the cutting chains and the bucket elevators. A conveyor belt 10 is arranged on the caterpillar tractor under the delivery point of the bucket elevators and supplies a conveyor carriage 11. In the width of the guide lines, a funnel 12 is attached below the cutting chains, which collects the falling goods and feeds them to the band. The door frames 13, whose logs are parallel to the warping slabs 14, serve to expand the guide lines.

The mode of operation is as follows: The deposit is prepared by driving the guide lines i _a and r (FIG. 6). Right through the Bauabteilung the conveying path leads 15. The degradation begins, for example at points 16 and proceeds in the course of the conductive runs i _a and 1 before. The coal is cut loose in the required width by the cutting chains 7. Instead of the go chains, cutting rods and the like could also be used here. Below the cutting chains it is obtained by the bucket elevators 4, 4 _a and 4ö. The coals of the cutting chains fall into the area of the bucket elevators, which convey them and their own coals onto the conveyor belt 10. The coals produced by the cutting chains via the guide lines are collected by a funnel 12 and also conveyed to the conveyor belt. As the cutting and conveying device progresses, the last door frame of the protective field must be removed. He is expediently changed to the fields of the guide lines, which are still free of pressure but which will soon be in the dismantling zone, which are in normal carpentry. In doing so, the rind distortion is withdrawn in accordance with the replacement of the door frames and finally removed completely. This avoids the annoying and constant chopping away of the rinds that are heavily jammed at the dismantling site, whereas the door frames, even if some rinds parallel to them hide any gaps in the room, together with the stakes can be knocked away too easily after dismantling. The coal delivered by the belts 10 can be poured into trolleys 11 or any other means of transport, with which they can be transported in the conveyor line according to the desired

blow is forwarded. The hanging wall sags in the dismantled space behind the Cutting and conveying device breaks or breaks in, so it can attack the Damming up protective wall 9 and favor the advance of the cutting wall. Greetings from the horizontal thrust of dry masses is known. In the present method, it becomes smooth from the crawler tractor and the rear wall of the cutting and conveying device built on it. In the case of particularly violent thrusts, spreading devices i (> through the gaps in the cutting chains 7 pivoted out against the shock. This gives the entire upper stepping device a sufficient number small spreading between the rear wall and the local impact, which absorbs the thrust once, to serve to teach to prevent the eruption of the processed local joint. Even the gaps between the sprockets on the roof can be the same or similar Way to be filled in or expanded, whereby loose coal is retained.

The local points 17 not touched by the cutting chains break because they have been cut around even in. In the case of very solid coal, the cutting chains are used in the required manner brought up to the bucket elevator.

The sloping walls can be arranged vertically or at an angle with the Form perpendiculars.

As a rule, it will be sufficient to dismantle only from a guide line with a caterpillar tractor etc. to operate. This achieves a high speed of the cutting walls. The facilities to a certain extent run ahead of the print (Gebirgsdruckej.

Claims (6)

Patent claims: i. Procedure to remove lignite and other minerals from a guide line from being dismantled with the mediation of a to protect against the collapse of the To win and promote hanging walls at the work joint, characterized in that the material pending beyond the cross-section of the guide line under simultaneous Bevelling is obtained automatically and continuously over the entire joint width. 2. Apparatus for carrying out the method according to claim 1, characterized by means of an approximately transverse to the guiding line, adjacent to the entire working joint, As narrow as possible and consisting of cutting chains, cutting troughs or the like. 3. Apparatus according to claim 2, characterized in that in the sloping wall Spreading members are attached to protect the working joint against breaking out. 4. Apparatus according to claim 2 and 3, characterized in that the cutting wall and the conveyor is carried and driven by a crawler tractor. 5. Apparatus according to claim 2 to 4, characterized in that the cups the cutting device and the device for the extraction of the material with lateral extensions for free cutting are provided. " 6. Route safety in the method according to claim 1, characterized in that that to protect the Schrämwand against the collapse of the hanging wall each last fields (protective fields) - the route before the dismantling sites through juxtaposed Door frames are secured, with the front door frames recovered during dismantling to complement the Protective fields at the rear can be readjusted while recovering the slab distortion. For this purpose ι sheet of drawings