RU2042595C1 - Device to transfer rocks in quarries - Google Patents

Abstract

FIELD: open-cast mining; transfer of overburden. SUBSTANCE: device to transfer rocks in quarry has truss hinge- mounted on self-propelled support with load-carrying platform bodies and curvilinear guide rigidly coupled with self-propelled support and installed in dumping zone. Truss is made in form of rigid circle whose axle is inclined towards worked-out area and is hinge-coupled with end faces of load-carrying platform bodies arranged along truss diameter. End faces of platform bodies are made in form of trapezium. Load-carrying platform bodies are installed with minimum clearances between platform bodies in upper wide parts. Each platform body has on its outer side a hinge-connected rod with wheel fitted on rod end for rotation and engagement with curvilinear guide. EFFECT: enlarged operating capabilities. 4 dwg

Description

 The invention relates to the mining industry and can be used to move overburden to the mined space in open pit mining, as well as rock and mined natural stone in upland quarries.

 The aim of the invention is the creation of a device for the continuous movement of overburden in the developed space, increasing labor productivity, and the use of gravitational forces, reducing energy costs.

 Figure 1 shows a device for moving rock in a quarry; figure 2 is the same side view; figure 3 load-bearing platform; figure 4 load-bearing platform in the discharge zone of the device, side view.

 A device for moving rock in a quarry contains a truss 1 made in the form of a circle and pivotally mounted on a self-propelled support 2 with an inclination towards the worked out space. An engine and brake (not shown in the drawings) are placed on a self-propelled support to ensure rotation of the circle during installation and repair. The diameter of the farm using axles 3 pivotally end faces made in the form of a trapezoid attached cargo platforms 4. The location of the axles 3 along the height of the platform is selected based on the stable position of the cargo platforms in the transport position. At the same time, the wide part of the side of the platform is at the top with a minimum gap with the neighboring platform. On the platform 4, on the outer side of the diameter, eyes 5 are installed with an axis 6 and a rod 7 provided with a freely rotating wheel 8. In the discharge zone, the device is equipped with a curved guide 9, curved so that its concave part extends beyond the axis of the platforms by an amount a (Fig. 4), while the curved guide interacts with the wheels 8 of the loading platforms 4 and is rigidly connected with the self-propelled support 2 beams 10, which in the discharge zone may have additional supports. In the loading zone, the device for moving rocks interacts with the loading hopper 11.

 A device for moving rock in quarries works as follows.

 A self-propelled support 2 with a truss 1 mounted on it is installed on an intermediate ledge of the quarry or on the sole of a layer developed by an inclined ledge. The axis of rotation of the farm 1 on the support 2 is tilted towards the worked-out space. In this case, the inclination of the axis of rotation is selected so that the load-bearing platforms 4 located along the diameter of the truss 1 are in the upper position under the loading hopper 11, and in the lower position above the discharge point. A curved guide 9 is placed in the unloading zone and rigidly fixed with beams 10 to the self-propelled support 2. The engine is turned on to the self-propelled support 2 to set the initial impulse to the rotation of the truss 1. At that, loading of the rock mass from the loading hopper 11 begins. Under the action of gravity, the farm 1 starts rotate (in figure 1 clockwise). At the same time, continuous loading of the load-carrying platforms 4 coming under the hopper 11 is carried out. Platform 4 is made in the form of a trapezoid, for the most part providing a minimum clearance between adjacent platforms to reduce spillage during loading. Upon reaching the loaded platform 4 of the unloading zone, its freely rotating wheel 8, fixed on the rod 7 by the axis 6, and eyes 5 from the outside of the circle diameter of the loading platforms 4 gets into the curved guide 9. The freely rotating wheel 8, rolling along the curved guide 9, forces the load-bearing the platform 4 is rotated on the axes 3 of the mounting platform 4 to the farm 1 of the device. The maximum concave part of the curved guide 9 extends beyond the axis 3 of the mounting platforms on the value of a (figure 4), providing tipping platforms and unloading. Moving further, the platform 4 assumes a transport position, and its freely rotating wheel 8 leaves the curved guide 9. Cargo platforms 4 (without cargo) are moved to the place of loading. To stop the device for moving the rock for maintenance and repair, the self-propelled support 2 is equipped with a brake (not shown in the drawings).

 The device moves along the pit using a self-propelled support 2.

 The proposed device for moving rocks allows you to increase productivity by continuously moving overburden into the worked out space, using gravitational forces that reduce energy costs.

Claims (1)

 DEVICE FOR MOVING ROCKS IN A CAREER, including a truss pivotally mounted on a self-propelled support with load-bearing platforms, characterized in that it is provided with a curved guide rigidly connected to the self-propelled support and installed in the unloading zone, while the truss is made in the form of a rigid circle, axis the rotation of which is inclined towards the worked-out space, and pivotally connected to the ends of the load-bearing platforms located along the diameter of the truss, and the ends of the latter are made in the form of a trapezoid, The platforms are installed with a minimum gap between themselves in the upper wide part, while each platform from the outside has a pivotally mounted rod with a shaft fixed to its end with the possibility of rotation and interaction with a curved guide wheel.

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