SU990628A1 - Double-ended inclined hoisting installation - Google Patents

Description

(54) TWO-CONFILING TILT LIFTING INSTALLATION

one

BACKGROUND OF THE INVENTION The invention relates to lifting transport devices used in the mining industry for the distribution of minerals and rock from quarries and mines.

Inclined lifting installations are known, comprising rail guides and lifting vessels moving along them, a lifting machine, a driving motor, ropes and guide pins | 1.

The disadvantage of such inclined lifting installations lies in their imbalance, which is manifested in the fact that the torque of the drive motor, determined by the difference in the tension of the ropes, is greatest at the beginning of the lifting cycle, and then it is underused in power. As a result, the economic performance of the engine and the entire lifting installation deteriorates.

Also known are double-end inclined lifting installations comprising a lifting mask and lifting ropes with vessels mounted on rail rails 2.

A disadvantage of the known inclined lifting installations is the hopping

change in tension of the ropes, which causes engine imbalance.

The aim of the invention is to reduce the energy consumption of the installation by improving the conditions for equilibrium of the vessels.

The goal is achieved by the fact that in a double-end inclined lifting installation containing a lifting machine and lifting ropes with vessels mounted on rail rails, the latter are made along the entire length with a concave

10 profile with a decrease in the angle of inclination, from top to bottom.

The drawing schematically shows an inclined lift installation.

Inclined lifting installation contains lifting vessels - loaded 1 and empty 2, mounted on the lifting ropes 3 and 4 and moving along rail rails 5 with a variable angle of inclination. The lifting ropes 3 and 4 are thrown over the guide pulleys 6 and ° fixed on the drum of the hoist 7 so that when the drive motor 8 rotates, the hopper rope 3 is wound onto the drum of the hoisting rope 1. And the hoop rope 4 is loaded with the empty vessel 2. Rail directions The 5 lifting vessels 1 and 2 are made with a concave profile, i.e., the rail guides 5 have the smallest angle of inclination at the lower point of the route, the greatest angle is at the top and equal to the average angle L of the inclination of the rise in the middle of the route. The change in the angle of inclination of the rail guides 5 from the smallest to the greatest occurs smoothly.

The balancing of such an inclined lifting installation is carried out as follows.

In the beginning of the lifting cycle, the loaded vessel 1 is at the bottom, where the track profile of the rail guides 5 has the smallest tilt angle. Therefore, the tension of the hoisting rope 3 at the site of winding it onto the drum of the hoisting machine 7, which consists of the longitudinal components of the weight of the vessel 1 with the weight and weight of the rope 3, whose length is maximum, and the resistance to movement of the rope 3 and vessel 1, is not less at a constant angle of inclination L of the track of the railways 5. When the drum of the elevator 7 rotates from the drive engine 8, the length of the rope 3 decreases, the loaded vessel 1 rotates upwards along the railways 5, the angle of which is proportional and smooth increases, leaving the tension of the rope 3 constant.

The empty vessel 2 at the beginning of the cycle is at the top, where the track of the rail rails 5 is characterized by the largest angle of inclination. Therefore, the tension of the lifting rope 4 at the point of winding it from the drum of the lifting machine 7 is greater than at a constant angle of inclination L of the railways 5. The downward movement of the empty vessel 2 downward causes an increase in the length of the rope 4, the longitudinal component of which weights

reduced slope angle of rail tracks in a given place.

The meeting of the lifting vessels — laden 1 and empty 2 — occurs at the midpoint of the route, when the railways 5 have an average angle of inclination d and the lengths of the ropes 3 and 4 are the same. Further rotation of the lifting machine drum 7 is accompanied by the movement of the loaded lifting vessel 1 along the upper part of the track rail tracks 5 with an inclination greater than the average component of the weight of its rope 3, the length of which is less than the rope 4 of the empty vessel 2 moving along the track rail tracks 5 with a tilt angle less than average.

Such an implementation of the route makes it possible to reduce the power of the lifting motor, the calculated load on the rope, as well as to increase the durability of the lifting unit due to its uranium suspension.

Claims (2)

1. USSR Author's Certificate No. 586076, cl. B 66 B 9/06, 1972. 2. Dimashko A.D. and others. Mine electric winches and hoisting machines. Directory. M., "Nedra, 1973, p. 35 and 36, fig. 23 (prototype).