DE882084C - Method and device for the extraction of coal and other minerals - Google Patents

Description

Method and device for the extraction of coal and other minerals It it is known to use a peeling extraction device for the extraction and loading of coal, so z. B. a coal plane to run along the joint. With harder coal is however, this process can no longer be carried out economically.

Attempts have then already been made to undercut the thrust for the time being or even to loosen the coal first by blasting it to relieve the plane. Again, however, these procedures are cumbersome because two special operations are required are.

The invention relates to a method for extracting coal and other minerals, also using a wedge body, which through a suitable feed force is pressed against the coal face in order to increase the wilderness to overcome. The invention proposes that the wedge body also have a straight line To give vibratory movement with such a frequency that the wedge body forced \ ATuchtenergie is able to last the wedge body in opposition to the frond once to deduct the feed force from the work stroke and the other time in the direction the feed force against to advance the work thrust. The device can e.g. B. by a tensioned rope, which is pulled by an elevator winch, be kept under tension in the feed direction.

An elastic member is expediently switched into the rope.

The rectilinear oscillatory movements of the wedge body can, for. B. by installing rotating masses that are rotatably mounted in the wedge body, be forced.

Of the many possible embodiments of the invention, one is Example shown in the drawing. It shows Fig. I an elevation, partly in Cut, -Fig. 2 a plan, also partially cut.

The base plate 1 is attached to a guardrail 110, which in turn carries the wedge body 12.

This is for example by three screws 13 with the plate nu tied together.

A not shown engages the guardrail 10 in the direction of the arrow I4 a taut rope which can be hooked into the eyelet 15. Is beneficial A tension spring is switched on in the rope. Instead, the rail 10 Also by a compressed air piston or the like. Are constantly elastically attracted.

In the illustrated embodiment, the wedge body 12 is shown in FIG a series of individual wedge points or picks I6 divided, which are replaced individually can be.

The wedge body 12 with the pids 16 is now through the tension of the Rope in the direction of arrow 14 constantly in the splitting direction against the coal face I7 drawn. In the wedge body 112, however, the two are also parallel to each other arranged shafts it attached, on which the body 19 with eccentric Mass distribution are rotatably mounted. The two bodies 19 are through the gears 20 connected to each other and are thus driven together, but in opposite directions the wheels 2-1 from the engine 2-. The rotation weights 19 are against each other by 1800 arranged offset on the two shafts I8.

The two rotating bodies 19 are in any direction of rotation driven, centrifugal forces result from the rotation of the centrifugal masses, the wedge body alternately in the direction of the wedge tips.Ió and opposite to do this, give a straight oscillating movement. In the first case, the tips r6 apart from the tension of the rope attacking in the direction of the arrow 14 driven into the coal face I7 by the force of the wedge body 112. In the second The movement phase of the wedge head is the balancing energy of the same in the direction of the arrow 1 (4 in the opposite direction; the effect of the tensioned rope is therefore for short Time completely or partially canceled. The wedge tips 116 are opposite to the direction of the arrow 14 lifted off coal pile I7. During the next phase of movement of the wedge body I2 add the contact pressure in the direction of the tips 16. The wedge body is thus pressed into the coal face 17 with a correspondingly large force.

To achieve good performance, the number of revolutions of the slingshot should 19 should be kept as high as possible. The abortion effect of a wedge body actuated in this way 12 is extraordinarily high. It increases with the increasing number of vibrations in the square Relationship.

The device could also be made so that the cutting edge Il6 or the cutting bar can be displaced in the direction of movement of the device arranged wind, so that it always remains in contact with the shock during the the remaining part of the device pivots back and forth and hits the cutting edge in the process.

In the sketched version, the wedge-II2 is symmetrical held. It can therefore be easily moved by 180 ° on the base plate II turn. The abortion wedge can therefore in the strut both from bottom to top can also be guided along the coal pile from top to bottom. For this reason it is also an advantage to set up a winch at both ends of the strut. The guide rail IIo is then switched on via a pull rope and one in it Spring connected to each of these winches. While the drum of the one winch that Winds up the rope and pulls the excavation wedge 12 in the excavation direction 14 against the joint, unwinds the drum of the other winch.

The guide rail IO can either be attached directly to the row of punches or can also be run on a conveyor. In the latter case, the dissolved coal is pushed directly to the conveyor.

The drive motor 22 can be an electric motor or a compressed air motor be trained. - The direction of rotation is irrelevant.

Claims (4)

PATENT CLAIMS: I. Process for the extraction of coal and others Minerals, with a wedge body being pushed against the work impact by a thrust force is pressed, characterized in that the wedge body, for example, by the Installation of rotating masses (19) a linear oscillating movement is granted with such a frequency that the wedge body (12) imposed balancing energy in is able to continuously change the wedge body once against the feed force (I4) to be withdrawn from the working joint (117) and the other time in the direction of the feed force (IN4) to advance against the working joint (I7). 2.Verfahren according to claim, characterized in that the device by a feed force (I4) constantly under tension in the direction of the oscillating movement is held. 3. Device for performing the method according to claim 1 and 2, characterized by an optionally via an elastic member on the device attacking rope, which is connected to an elevator winch. 4. Apparatus for performing the method according to claim 1, characterized It is shown that the forces oscillating against each other (16, 12, 22, 10 on the one hand and 19 on the other hand) are rotatably connected to one another. Attached publications: German patent specifications No. 261 226, 388 264, 500 151, 50I 194, o70 8-S; U.S. Patent No. 1,465,372; magazine "Brown coal" I94), p. 147, Fig. I.