CS267586B1 - Jib with telescopic connecting bridge for overburden mining - Google Patents

Abstract

The invention relates to a telescopic boom connecting bridge to change distance between sub-bogie and main support bogie chassis plate on the hydraulic cylinder and a circular beam whose all the drums they are girded with one endless traffic belts with one drive allowing to load overburden in Uok about breadth without to move the sub-bogie while the boom balancing element is formed top of the bridge.

Description

The invention relates to a boom with a telescopic connecting bridge for overburden mining, provided with a side undercarriage and a main caterpillar undercarriage with a support plate on the hydraulic cylinder and a circular beam.

Previously used devices - stackers with booms - for transporting material from the dump truck use, in addition to the feed belt, two or more other conveyor belts, which allow to cover a larger space by suitable movement of the end of the boom, but they are very massive. Furthermore, transfer conveyor belts are used, which also use a feed belt and one boom belt, but these devices do not allow to change the distance between the place of receiving the material and the place of its unloading, i.e. the end of the boom.

The above-mentioned weight and technical shortcomings are overcome by a boom with a telescopic connecting bridge for overburden mining, provided with a side chassis and a main caterpillar chassis with a support plate on a hydraulic cylinder and a circular beam according to the invention, the essence of which is an endless conveyor belt with one drive, the balancing element of the boom being formed part of a connecting bridge.

The telescopic connecting bridge in cooperation with the main caterpillar undercarriage allows a suitable movement of the end of the boom along the required trajectory for the foundation or transfer of the overburden. The expansion of one conveyor belt, which passes in a straight line from the boom to the telescopic connecting bridge, eliminates the need to use a technologically unused counterweight. Its function is taken over by a connecting bridge. This significantly reduces the weight of the device. At the same time, the use of one conveyor belt reduces the energy requirements for the transport of material, which does not have to be accelerated from zero speed as with a stacker. The overflow point is also reduced, thus providing additional energy savings for unnecessary transport of material to a higher position. Only one drive station can also be used for one boom belt, which reduces the energy losses necessarily resulting from the use of multiple drive stations due to the efficiency of the gearboxes and motors.

The boom according to the invention is shown in the accompanying drawing, where in Fig. 1 it is with the telescopic connecting bridge maximally extended and in Fig. 2 it is with the bridge retracted.

The boom 1 is connected by a horizontal pin to the upper part 2 of the telescopic connecting bridge 11. The boom 1 is further suspended by rope suspensions on a strut 3, which is raised and lowered by a hoist by a winch 4 of the boom 1. In the ball beam, a hydraulic cylinder with a support plate 6 is fixed by a ball joint. is connected via a ball joint to the side chassis 9. A feed belt 10 is suspended on the lower part 8 of the telescopic connecting bridge 11. On both parts of the telescopic connecting bridge 11 and on the boom 1 drive, transfer and return drums are arranged so that they can be connected an endless conveyor belt 12, the length of which does not change when the length of the telescopic connecting bridge 11 changes. The length of the telescopic connecting bridge 11 changes with a change in the distance 13 of the mutual position of the two bogies, which makes it possible to spread the block or to overcome the distance of width 14.

Claims (1)

Boom with a telescopic connecting bridge for overburden mining, provided with a side chassis and a main caterpillar chassis with a support plate on a hydraulic cylinder and a circular beam, characterized in that all drums of the boom / 1 / and the telescopic connecting bridge / 11 / are surrounded by one endless conveyor belt / 12 / and one drive, wherein the balancing element of the boom / 1 / is formed by the upper part / 2 / of the telescopic connecting bridge / 11 /.