DE645288C - Cable excavator with towers that can be moved on the upper edge of the embankment of a mine - Google Patents

Description

The invention relates to a cable excavator with on the embankment upper edges of an opencast mine movable towers, whereby several buckets moving one behind the other are used in the cable pull for excavation.

In the known devices of this type, the buckets can only be in one of the dig in both directions while they are loaded or returned empty in the other direction, whereupon the next cut is started. This results in a constant counter-rotating operation of the buckets on the same A rope pull that wastes a lot of time. In addition, these are known Devices, the number of buckets to be used depends on the emptying point of the buckets, d. H. when the distance between the cable tower and the beginning of the drainage point are short, only a few can Buckets are used one behind the other, otherwise the first or last bucket, depending after the emptying point is located on the tower or on the opposing tower can no longer be emptied. However, you want a lot of buckets insert, so one is required, the distance between the cable tower and the beginning to make the emptying point large according to the length of the bucket train, what an increase in the span between the cable towers and thus a substantial one Increased weight of the towers results.

These disadvantages are avoided according to the invention that between the two Towers another tower moving on the opencast mine or an intermediate berm is arranged and that the cables are triangular between all towers, with the buckets between those on the top of the embankment and those on the open pit floor moving towers on the one hand and the towers moving on the top edges of the embankment on the other hand »proceed in opposite directions, which creates a circulating dredging and conveying operation.

The cables go on the towers moving on the upper edges of the opencast mine in railways with spring switches over, whereby the between the one on the upper edge of the mine and the one traveling on the mine floor Tower dredging buckets when driving onto one of the towers moving on the upper edge of the open pit automatically to the one after the be connected to another rope pull leading to the top of the slope moving tower.

Furthermore, two or more can be moved on the opencast mine or an intermediate berm Towers be arranged and two or more triangular cables run between all towers.

Appropriately, there are cable pulls on the side of the towers facing away from the opencast mine connected to carry on or bring the dredged material.

In the drawing, an embodiment of the invention is shown, namely show .. _; ;

Fig. Ι the device in side view undff ',''Fig. 2 is a plan view of the system ψ (φ Fig. I. _ "%;

The system consists of the towers, B, traveling in the usual way on the upper embankment edges of an opencast mine by means of caterpillars or railcars, which are connected to one another by a support cable, in the exemplary embodiment a double support cable e tower C disposed of, g is connected to the billowing and B in each case by a single or double supporting cable /. According to Fig. 2, two towers C, C ₁ on the open pit sole or on the Zwischenberme provided with the towers a, B are connected by a double suspension cable /, g and Z ₁ , o-. In this design, a common return line, namely the double suspension cable e, is provided between the cable cars /, g and J ₁ , g _v . Of course, more than two towers be erected on the open pit or on the intermediate berm (s), creating triangular cable cars for the bucket / between the Türnieni, B, C and A, B, C _1. Into this cable car Any number of buckets / can be used.

On the towers A, B , railways with spring switches connecting to the cable cars Z, S> / 1 » Si are provided, whereby the trolleys driving onto the tower / B automatically move from the cable cars /, g or / j, g _t to the Cable car ^ to be connected. On the sides of the towers A, B _{facing away from the opencast mine, extension cableways o, O 1} can be connected in the course of the cableway £, which lead to the dump or another point of the opencast mine. This arrangement creates a continuous conveyor and excavator operation, which makes it possible to use as many buckets as are required without losing time and without increasing the size of the system. This results in a significant increase in performance that the previously known cable excavators do not have. The operation of the system is as follows: The empty buckets / come from tower A. The automatic spring switches move the buckets / into the cable cars /, f _x to the tower or towers C on the mine floor. Between the tower or towers C and the tower B is being dredged. As soon as the bucket / located between towers B and C is filled, the next bucket / is drained from tower C. From the "tSurniB the buckets filled arrive / on .-. (Fairy spring course in the cable car ^ and go to the counter Tower A, where they are discharged or from which, where appropriate, ο on the extension cable car to drive on. $ 6 to the fully filled bucket / but also get from tower B in its extension cable car O ₁ .

Claims (4)

Patent claims: _ _o i. Cable excavator with towers that can be moved on the upper edge of the embankment of an opencast mine, whereby several buckets traveling one behind the other are inserted into the cable hoist, characterized in that between the two towers (A, B) traveling on the upper edge of the embankment another tower (C ) is arranged and dap the cables (e, f, g) between the towers (A, B, C) run triangular, the buckets (/) between the towers (A, C; C, B) on the one hand, and the towers (B, A) moving on the upper edge of the embankment, on the other hand, move in opposite directions, creating a circulating excavation and conveying operation. 2. Cable excavator according to claim t, characterized in that the cables (e, f, g) on the towers (A, B ) merge into railways with spring switches, whereby the bucket (/) dredging between the towers (C, ff) during Approaching the tower (B) can be automatically connected to the cable (e) leading to the counter tower (A) . 3. Cable excavator according to claim 2, characterized in that two or more towers (C, Ci) which can be moved on the opencast mine or an intermediate berm are arranged and that between the towers (A, B, C or A, B, C ₁ ) two or more triangular cables (e, f, g or e, Z ₁ , ^ ₁ ) run. 4. Cable excavator according to claim 3, characterized in that on the side of the towers (A, B) facing away from the opencast mine, cables (O, O ₁ ) are connected to carry on or »10 bringing the dredged material. 1 sheet of drawings