RU2486126C2 - Mine skip hoist - Google Patents

Abstract

FIELD: transport, package.

SUBSTANCE: mine skip hoist comprises drum-type hoisting machine with steel rope secured to said drum, rope deflecting pulley, and skip fixed to rope. Said skip consists if frame and body for rock mass to be carried therein. Second hoisting machine is installed parallel with the first one, equipped with deflecting pulley with second end of said steel rope secured to second machine drum to run through 180 degrees over reverse pulley arranged to run axle at skip frame top edge. Thrusts are fixed on both rope runs nearby reverse pulley with minimum gaps relative thereto to interact therewith in the case of rope rupture at any of said runs. Grooved reverse pulley has outer edge furnished with ledges bent outward at right angle to interact with aforesaid thrusts secured at rope runs, their lower edges are rounded to radius equal to that of reverse pulley outer edge.

EFFECT: higher hoisting capacity and skip reliability.

4 dwg

Description

The invention relates to lifting equipment of mines and mines, and in particular to skip hoisting installations with the possibility of their use with increased skip loading capacity and skip lifting height.

A well-known lifting installation for a mine, including a double-drum lifting machine with a common drive and a cardan mechanism between the drums located at an angle to each other, lifting vessels suspended from each drum on two steel wire ropes (Glukauf, 2003, August, No. 2 (3), p.32).

The disadvantages of the lifting installation are the design complexity, the possibility of skewing the lifting vessel suspended from two ropes due to possible different elastic deformations of the ropes, reducing the reliability with increased vessel carrying capacity and its lifting height due to the need to transfer a significant torque to the second drum through the cardan mechanism, the complexity of the system for catching vessels in the event of wire breakage.

Known for the prototype is the mine skip hoist installation, including a drum-type hoist with the end of a steel wire rope fixed to its drum, the second end of which, after bending around the deflecting pulley, is connected to the skip, which consists of a frame and a body with the possibility of placement and unloading from it transported rock mass (Alekseev V.V. Stationary machines. M., Nedra, 1989, pp. 344-345, fig. 5.16, pp. 344-355, fig. 5.6, 5.7).

However, the disadvantages of the known skip hoisting installation are the limited skip loading capacity and its lifting height, limited by the diameter of the steel wire rope and its strength properties, as well as the need to equip the lifting system with special catching devices that are triggered by a possible wire breakage, which are notable for their rather complex construction and are not always reliable during operation of a lifting installation.

The technical result of the invention is the possibility of increasing the load capacity of the skip, its lifting height and improving the reliability of catching the skip with a possible breakage of the rope with the simplification and cheapening of the corresponding equipment of the lifting installation.

The technical result is achieved in that in a mine skip hoist installation, including a drum-type hoist with the end of a steel wire rope fixed to its drum, a deflecting pulley for the rope, a skip suspended from the rope, consisting of a frame and a body with the possibility of placement and unloading from of transported rock mass, parallel to the lifting machine there is a second lifting machine with a deflecting pulley with the same parameters with the second end of the article fixed to the drum of the second lifting machine an outer wire rope that bends around a 180-degree circumference angle with a revolving pulley mounted with the possibility of rotation about the axis on the upper edge of the skip frame, and on both branches of the rope in the region of the circumference of the revolving pulley around them and with minimal gaps relative to it, stops are fixed with the possibility of their interaction with a reverse pulley in case of a cable break on any of its branches, while the reverse pulley is grooved and has an outer edge equipped with protrusions bent to the sides at right angles interacting with them fixed on the branches of the rope stops, the lower edges of which are profiled along an arc of a circle whose radius is equal to the radius of the outer edge of the revolving pulley, while the arc itself is located equidistant with respect to the circumference of the outer edge of the revolving pulley, and the stops are interconnected using thimbles a piece of additional steel wire rope with the possibility of free sagging between the stops.

Mine skip hoisting installation is shown in Fig. 1 - side view, Fig. 2 - view A in Fig. 1, Fig. 3 - view B in Fig. 1, Fig. 4 - position of the elements at the moment of skip recovery when the rope is broken .

The mine skip hoist installation includes a drum-type hoist 1 with the end of a steel wire rope 2 fixed to its drum, a deflecting pulley 3 for rope 2, a skip suspended from rope 2, consisting of a frame 4 and a body 5 with the possibility of being placed in and unloaded from it transported rock mass. In parallel with the lifting machine 1, a second lifting machine 6 with a deflecting pulley 7 with the same parameters as the first machine 1 is placed. The second end of the steel wire rope 2 is fixed to the drum of the second lifting machine 6. The steel wire rope 2 bends around the revolving pulley with a girth angle of 180 degrees 8 mounted rotatably about axis 9 on the upper edge of the skip frame 4. Stops 10 and 11 are fixed on both branches of the rope 2 in the envelope zone of the revolving pulley 8 and with minimum clearances h relative to it, with the possibility of their interaction with the revolving pulley 8 in the event of a break in the rope 2 on any of its branches. In this case, the revolving pulley 8 is made grooved and with an outer edge provided with protrusions 12 and 13 bent to the sides at right angles with the possibility of interaction with them of the stops 10 and 11 fixed on the branches of the rope 2, the lower edges of which are profiled along an arc of a circle whose radius is equal to radius R of the outer edge of the revolving pulley 8, and the arc itself is located equidistant with respect to the circumference of the outer edge of the revolving pulley 8. The stops 10 and 11 are interconnected by an additional segment fixed to them by means of thimbles 14 and 15 of steel wire rope 16, with its free slack between the abutments 10 and 11. Instead, the rope 16 kruglozvennye circuit can be placed. The drums of the hoisting machines 1 and 6 may be cylindrical, conical or cylindrical. Lifting installation can be performed both without tail and with additional tail ropes. Skips can be with a deaf or tipping body. A crate can be used as a lifting vessel. Lifting installation can be performed to enable simultaneous lifting and lowering of two lifting vessels. In all of these embodiments, the technical solution described above can be used.

Mine skip hoisting installation operates as follows. When lifting and lowering the skip due to its suspension on two branches of one rope 2, enveloping the revolving pulley 8, not only is it possible to reliably operate the lifting installation with increased lifting capacity of the skip body 5 and its considerable lifting height, but also a constant, stable, strictly vertical arrangement of the frame 4 and the skip body 5 with possible differences in the speeds of both branches of the rope 2 due to their compensation with the corresponding rotation of the revolving pulley 8 in one direction or another. With a possible breakage of the rope 2 on any of its branches, the emphasis 10 or 11 located on this branch under the action of the tension of the rope 2 on the other branch comes into contact with the protrusions 12 and 13 of the revolving pulley 8, on which the emphasis 10 or 11 is fixed due to the joint tension of the main edge 2 and additional rope 16. Due to the minimum distance h between the stops 10, 11 and the revolving pulley 8 during normal operation of the lifting installation, the dynamic component of the force applied to the rope 2 in the process of catching the skip is insignificant and practically absent a. In this case, the skip frame 4 is suspended from the unbroken branch of the rope 2 also with a minimal skip displacement downward. The implementation of the revolving pulley 8 with the side protrusions 12 and 13 allows you to limit the pressure on the mating surface of the stop 10 or 11 and the revolving pulley 8 when catching the skip, which increases the reliability of the capture process.

Distinctive features of the invention provide the possibility of increasing the load-bearing capacity of the skip, its lifting height and increasing the reliability of catching the skip with a possible cable break with the simplification and cheapening of the corresponding equipment of the lifting installation.

Claims (1)

Mine skip hoist installation, including a drum-type hoist with the end of a steel wire rope fixed to its drum, a deflecting pulley for a rope, a skip suspended from the rope, consisting of a frame and a body with the possibility of placing and unloading the transported rock mass from it, characterized in that in parallel with the lifting machine there is a second lifting machine with a deflecting pulley with the same parameters with the second end of the steel wire mounted to the second lifting machine drum nata, which bends around a 180 ° girth angle of a revolving pulley mounted rotatably relative to the axis on the upper edge of the skip frame, and on both branches of the rope in the zone of circumference of the revolving pulley by them and with minimal gaps relative to it, stops are fixed with the possibility of their interaction with the revolving pulley in the event of a cable break on any of its branches, the revolving pulley is grooved and has an outer edge provided with protrusions bent to the sides at right angles with the possibility of interaction with them stops on the branches of the rope, the lower edges of which are profiled along an arc of a circle whose radius is equal to the radius of the outer edge of the revolving pulley, while the arc itself is located equidistant to the circumference of the outer edge of the revolving pulley, and the stops are interconnected by a segment fixed to them with a thimble additional steel wire rope with the possibility of free sagging between the stops.

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