CS200321B1 - Equipment for storing power cables of large machines - Google Patents

Abstract

Device for storing power cables of a large machine for the transmission of electrical energy, control of drives and signaling between the lower and upper structures of a large machine, which has a slewing chamber of the upper structure. The device consists of a circular supporting structure fixed in the slewing chamber on the upper structure of the large machine. The hangers are slidably mounted on the supporting structure, each of which is provided with a stop and a sleeve, and the number of hangers depends on the size of the diameter of the slewing chamber of the upper structure of the large machine. The first to the last sleeve of the hangers is interconnected by a tensile cable with a conductor.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for accommodating power cables of a large machine, for transmitting electrical power, controlling drives and signaling between a lower and upper structure of a large machine having an upper structure rotation chamber.

The existing system of supplying the low-voltage substation of the upper structure and the control of the drives of the mining large-scale machines is carried out via a ring collector located in the ring chamber on the rotating upper structure. During the operation of the large excavator, there is a frequent failure of the ring collector, in particular the ring holders are often refuted and consequently short-circuiting on the ring collector and the mining stops. Repairs associated with the elimination of these failures are difficult because the repairer has to move in the annular chamber of the upper construction of the large machine, where the space is very confined and in addition very dusty.

The aforementioned drawbacks are eliminated by the device for laying the power cables of the large-sized cable according to the invention, which essentially consists of a ring-shaped support structure fixed in the pivot chamber on the upper structure of the large-scale machine. Hinges are slidably mounted on the supporting structure, each of which is provided with a stop and a sleeve, and the number of hinges depends on the size of the pivot chamber diameter of the upper structure of the large machine. The first to last hinge sleeve is connected to each other by a traction cable and a conductor.

The device for storing power cables of a large machine is considerably simpler than the equipment used, practically eliminating disturbances and thus eliminating downtime of the large machine during mining. Being simpler than the one used is less maintenance-intensive. The device occupies considerably less space in the upper building pivot chamber, and the DC repairer can better move in the pivot chamber during repair or inspection.

1 is a plan view, FIG. 2 is a section along the line A - A in FIG. 1, and FIG. 3 is a side view of the apparatus.

The device for receiving the power cables of the large machine is housed in the pivot chamber 2 of the upper structure and consists of a supporting structure 2 of a circular shape, fixed to the upper structure. Hinges 3 are movably mounted on the supporting structure 2, the number of which depends on the size of the diameter of the pivot chamber 1 of the upper structure of the large machine. In the embodiment according to FIG. 1, nine hinges 3 are used, the hinge 3 having a stop 6 and a sleeve 4 housing the power cables 5. The first to last sleeve 4 of the hinges 3 are interconnected by a traction cable 7 and a conductor 8 which functions The breakdown cables of the tow cable 7. The power cables 5 are terminated in the terminal box 9 of the substructure and the cables coming out for the upper structure are terminated in the terminal box 10 of the upper structure.

The power cables 5 connecting the terminal box 9 of the building and the terminal box 10 of the upper building form a cable loop which is fixed in the sleeves 4 of the hinges. The sleeves 4 move in a circular motion on the support structure 2 depending on the direction of rotation of the upper structure of the large machine to the left or right. Depending on the direction of rotation of the upper structure, the cable loop formed by the power cables 5 is either expanded or collapsed. The stop 8 fastened to the hinge 3 prevents the power cable 5 from bending less than the CSN permitted when folding the power cables 5. In opposite movement of upper structure vel2

The wire 8 is connected to the control circuit of the large machine and in case of unwanted tightening of the cable loop, i.e., when the pulling cable T is broken, the wire 8 is subsequently broken, because in the sections between the individual hinges 11, the length of the conductor 3 is greater than the length of the cable 7, but shorter than the length of the power cables 5, thereby opening the control circuit. As a result, the main circuit breaker is switched off and the upper construction of the large machine stops turning.

Claims (1)

Five. THE EDM OF THE INVENTION A device for laying power cables of a large machine having an upper structure pivot chamber, characterized in that it consists of a supporting structure (2) of circular shape mounted in the pivot chamber (1) on the upper structure of the large machine. (3), each of which is provided with a stop (6) and a collar (4) and the number of hinges (3) depends on the diameter of the swiveling chamber diameter (1) of the upper structure of the large machine; interconnected by a traction cable (7) with a conductor (8).