DE69529336T2 - SCHRÄMLAGEMASCHINE - Google Patents

Description

Subject of the technology

The invention relates to mining and can be used to extract ore from a seam with complex deposit structures.

The claimed invention is aimed at enabling extensive and selective ore mining with one and the same machine.

State of the art

In the prior art, a machine for local operation is known with a housing and two drive elements arranged at the ends of the housing, the drive elements being designed in the form of arms which are rotatable in a vertical plane and are equipped with a built-in drive and a screw cutting conveyor ("Glückauf", No. 8, 1992, p. 7).

A disadvantage of this design is the low efficiency of the machine when processing single mineral deposits located between pure rock, since it is impossible to provide forward control of the position of the screw cutters relative to the face.

The most suitable technical solution, which is implemented as a prototype, is a machine (USSR patent 1553670) with a housing and two drive elements which are hinged to it, the drive elements being designed in the form of screw conveyors which are driven to extract the mineral, and with a Cutting drum with a vertical axis of rotation for removing rocky intermediate deposits. The cutting drum with the drive is arranged on an additional support frame, which is pivotally mounted on the machine. When rotating relative to the support frame, the cutting drum takes a position above the screw conveyors in the direction of the site and moves to a position behind them during the work process.

The disadvantage of this design is the complication due to the presence of a third cutter for mining rocky interlayers, since for large-scale mining the machine can be used without the presence of a cutter drum; this reduces the machine's performance in various mining processes of a mineral, including those minerals that have a complex bed structure. Furthermore, an additional cutter increases the machine's dimensions in the longitudinal direction, which makes it more difficult to carry out operations on site together with rocks and with ventilation and extraction.

Summary of the invention

It is an object of the present invention to broaden the scope of application and increase the work performance when mining seams using a selective method and also to improve the technical potential of the machine with regard to the amount mined and the selection methods of the minerals to be mined.

To achieve this object, the claimed invention provides a machine for local operation, which has the following essential features: a housing and two drive elements arranged at the ends of the housing, the drive elements being in the form of arms which are rotatable in the vertical plane and are equipped with a built-in drive and a screw conveyor, each arm being connected to the housing of the rail by means of a support, at one end of which the arm is pivotally mounted, while the other end is movably arranged on guides of the housing of the machine to enable, by means of a hydraulic cylinder, a forward movement of the arm towards the location to an extent equivalent to the absorption capacity of the screw conveyor.

The claimed invention has the following different features from the prototype: each arm is connected to the housing by means of a support at one end, where the arm is pivotally mounted, while the other is movably mounted in guides on the housing of the machines to allow a forward movement of the arm towards the site with the aid of the hydraulic cylinder by an amount equivalent to the absorption capacity of the screw conveyor.

According to the information available to the authors, the set of essential features which characterize the substance of the claimed invention is not known from the prior art, so that it can be concluded that the invention meets the criterion of "novelty".

A comparison of the claimed machine for local operation with the prototype allows the conclusion that the machine according to the state of the art does not contain any features similar to the essential distinguishing features of the claimed machine.

The set of features of the claimed technical solution differs from the prototype and from known analogues and is not obvious from the prior art. Thus, the authors believe that the subject matter is new and inventive.

The invention also has an inventive level because a combination of features, which involves the connection of each arm to the housing of the machine by means of a support at one end where the arm is pivotally mounted, while the other is movably arranged in guides of the housing of the machine, which enables a forward movement of the arm towards the site with the aid of a hydraulic cylinder by an amount equivalent to the input power of the screw conveyor, solves the problem of the invention, namely to expand the field of application and to increase the work performance in mining seams by a selective method, while also improving the technical potential of the machine in terms of performance and selection method in mining minerals. These features are so interconnected that if one of them is removed, the technical result created by the invention would no longer be present.

The set of essential features characterizing the substance of the invention can be used in mining, obtaining a technical result consisting in the efficient extraction of mineral by the method of high extraction efficiency and selection, which leads to the achievement of the set task, so that it can be concluded that the invention meets the criterion of "industrial applicability".

Short description of the figures in the drawing

The subject matter of the claimed invention is explained with reference to the drawing, in which the figures show:

Fig. 1 a machine for local operation from the front side;

Fig. 2 is a top view of the machine for local operation.

Preferred embodiment

The claimed machine for local operation comprises a housing 1 with conveyor mechanisms 2 and 3, two drive elements in the form of arms 4 and 5 with a built-in drive 6 and 7 and screw conveyors 8 and 9. Each arm is connected to the housing 1 by means of supports 10 and 11. The arms 4 and 5 are pivotally mounted at one end on each support, while the other end is arranged in guides 12 and 13 of the housing 1. Hydraulic cylinders 14 and 15 produce a forward movement of the supports 10 and 11 together with the arms 4 and 5 in the direction of the location by an amount equivalent to the intake power of the screw conveyor.

The machine works as follows. For mining mineral seams by the mass method, the two arms 4 and 5 are retracted from the site towards the machine with the help of the hydraulic cylinders 14 and 15. At the same time, the supports 10 and 11 move along the guides 12 and 13 and create the necessary equal reach of the screw conveyors 8 and 9 with respect to the housing 1. In this state, the machine is ready to work by the mass method.

To mine seams using the selective method, one or the other screw conveyor must temporarily move forward towards the site. Thus, when mining a seam with intermediate rock deposits in the middle section, the machine's working sequence is as follows: one of the screw conveyors takes an upper position and with the help of the support 10 and the cylinder 14 it is moved forward towards the site along the guides 12 by an amount equivalent to the screw conveyor's input power. In this position, the machine works its way through the rock and mines the upper productive part of the seam. After passing through, the upper screw conveyor returns to its starting position, i.e. is pulled back towards the machine. After the entire machine has been moved towards the site on a trough-like foundation, the subsequent operation with both screw conveyors creates an extraction of the intermediate rock.

For the subsequent third operation, the upper screw conveyor is moved towards the site by an amount of its capacity and produces a depletion of the productive portion of the seam immediately above, whereas the lower screw conveyor, which is behind the upper screw conveyor by an amount of the capacity, depletes the lower productive portion of the seam. Before the fourth operation, the main conveyor, together with the machine, moves towards the site by an amount of its capacity, whereas the upper screw conveyor is retracted towards the machine; when this takes place, both screw conveyors produce a depletion of the rock interlayer. The third and fourth operations alternate.

An analogous operating sequence of the machine is possible if two or more rock layers are present in the thickness of the seam.

Industrial applicability

Design studies have shown that the claimed invention can be applied economically and, compared to the prototype, it has the following advantages:

The scope of application of such a machine is wider, i.e. it can be used in both mass and selection processes without any structural changes. The application performance is increased due to the universal design of the operating elements, which allows mining of productive parts and rock interlayers. The technological potential of the machine is expanded, since its operating element can quickly regulate the intake (range) of the intake power.

Claims (1)

1. Machine for local operation, which comprises a housing and two drive elements arranged at the ends of the housing, the drive elements being in the form of arms rotatable in the vertical plane and equipped with a built-in drive and a screw conveyor, characterized in that each arm is connected to the machine housing by means of a carrier, at one end of which the arm is pivotally mounted, while the other end of the carrier is movably mounted in guides of the machine housing in order to enable a forward movement of the arm towards the location by means of a hydraulic cylinder, to an extent which is equivalent to the absorption capacity of the screw conveyor.