DEP0031027DA - Mining method and machine. - Google Patents

Description

4th

The invention relates to the use of a machine moving along a mining front which can be used to crush the minerals obtained. It is suitable for. B. for the mining of potash, oil shale and such minerals, which are usually obtained in long mining fronts by undercutting, drilling or blasting so that they are placed on a conveyor running along the mining front, so that they are then brought above ground and there in very small ones Pieces are crushed.

According to the invention, when the seam is being excavated, the material is simultaneously obtained by cutting and crushing it, namely by a machine which is moved along the excavation front and which has an essentially uninterrupted row of cutting tools on a crosspiece which work against the transversely pending coal pile, Each tool has cutting picks, which are arranged in endless paths in vertical planes, i.e. essentially perpendicular to the horizontal plane, and deliver the shredded material to a transverse conveyor that feeds it from the mining front to a conveyor that is parallel to the mining front.

In this machine, the cutting tools, which work in vertical planes, are driven by a horizontal axis of the drive machine. The cutting surfaces of all cutting tools form a cylinder, so to speak, which can be provided with protruding ribs. During the cutting process, the picks run on parallel curves lying close to one another, preferably, but not necessarily, on arcs of a circle. The cutting tools can then have a boom that can be moved in a vertical plane in the manner of cutting chains, preferably with intermediate circular cutting disks, the diameter of which corresponds essentially to the cutting and beveling surfaces of the boom; however, the slices can also be larger or smaller, depending on whether the cutting surface is ribbed or not. This can make charging easier because it results in a somewhat less fine and even size reduction.

An exemplary embodiment of the invention is shown in the drawing:

Fig. 1 shows a side view of this embodiment.

Fig. 2 shows a plan view of this embodiment.

Fig. 3 shows a section along line III - III of Fig. 1 and shows only one cutting arm.

A motor and a conveyor gear are housed in a gear housing 3 to which a transverse conveyor 4 is connected.

The motor, conveyor and gear unit lie in a path that extends parallel to the mining front. The conveyor 4 protrudes above it towards the front of the conveyor by a length which corresponds to the desired excavation depth.

On the protruding part of the conveyor 4 in the direction of transport of the machine there is arranged a series of arms 5 which carry a shaft 6 which are connected by a coupling 7 to a drive shaft 8 of the gearbox. A row of chain wheels is arranged on the shaft 6, which drive inclined chains 10, which run on pear-shaped arms 11 which carry larger chain wheels 12 at their outer ends. A drive shaft 13, which is supported in the arms 11, connects these large chain wheels 12 to one another.

Between the arms 11, disks 14 are arranged on the shaft 13, which disks are provided with inclined picks, so that the cutting surface of the whole series of chains and disks forms part of a cylinder. The disks 14 can also be in the form of sprockets and chains. The diameter can be larger or smaller, like the diameter of the

Inclined chains in their inclined area, so that the cutting surface of the arrangement is provided with ribs.

The boom 11 and disks 14 can be pivoted about the drive shaft 6 so that they can assume different positions, as shown in FIG. 1. The boom can be moved up and down, for example, by a hydraulic cylinder 15, the piston of which is connected to the side wall of one of the booms, while the cylinder is articulated to the arm 5.

During the mining work, the machine is moved lengthways parallel to the mining front 16, the cutting tools working against the transversely applied coal 17. The cutting tools cut and crush the material at the same height of the seam as it is to be obtained during a path of the machine along the mining front. The shredded material is transported by the chains to the cross conveyor 4, which moves it away from the mining front and brings it onto a conveyor that runs parallel to the mining front. If the height of the cutting picks on the boom is insufficient to dig the seam to the desired height, the device 15 can be used to move the boom and sheaves up and down as desired as the machine moves forward will.

When the material in the upper and lower part of a seam is of different types or qualities, as is often the case in potash mining, it may be important to extract the different material separately. This is possible with the present machine without difficulties because the machine can be moved along the mining front so that the boom and disks are in front of the cross conveyor, and because it can then be moved so that the booms and disks after they are up are pivoted, are pulled behind the cross conveyor. In the former case the lower layers of the seam are extracted and in the latter case the remaining upper layers of the seam are extracted. The machine moves back and forth on the same path.

You can also place booms and disks on both sides of the cross conveyor.

Claims (8)

1. Mining method with a mining machine moving along the mining front, characterized in that the mining of a pending coal pile transversely to the direction of movement takes place by means of an essentially uninterrupted series of cutting tools, each of which has pecking, which run in endless paths in vertical planes and through the the material is obtained and crushed at the same time and the crushed material is transported away from the excavation front by a conveyor lying transversely to the excavation front and, for example, to a conveyor running parallel to the excavation front. 2. Mining method, in particular according to claim 1, characterized in that the seam is first mined to a part of its thickness by a mining machine moving along the mining front, the cutting and crushing tools of which are attached in one piece transversely to the direction of movement and against the transversely pending coal pile work, changing the working plane of the tools at the end of the chosen path of the machine and then moving the machine on the same path in the opposite direction and pulling the tools behind so that they extract and crush the material of another part of the thickness of the seam . 3. Mining method according to claim 2, characterized in that the material of different seam systems is extracted separately. 4. Mining machine for carrying out the method according to claims 1-6, characterized in that the machine is connected to a conveyor lying transversely to the mining front, for receiving a <not readable> from close together <not readable> and working in a vertical plane Cutting tools <Illegible>, whereby the <Illegible> of the cutting tools <Illegible> forms part of a cylinder surface with or without protruding ribs and the <Illegible> cutting paths represent closely adjacent parallel curves. 5. Mining machine according to claim 4, characterized by a number of juxtaposed, in a vertical plane movable cutting chain boom, the cutting chains are connected to a drive member on a horizontal axis <not readable>. 6. mining machine according to claim 5, characterized in that cutting disks are arranged between the booms, the diameter of which corresponds to the cutting surfaces of the boom. 7. Mining machine according to claim 6, characterized in that the diameter of the cutting disks is such that the cutting surface formed by the disks and the outriggers is part of a cylinder provided with ribs. 8. mining machine according to one of claims 4-7, characterized in that the cutting device is designed to be raised and lowered.