RU2404107C1 - Inclined belt conveyor - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: conveyor contains looped belt forming load-carrying and nonworking branches. Between load-carrying and nonworking branches of belt flexible elements are fitted with minimal gap relative to load-carrying branch of the belt. These flexible elements are are equally spaced along conveyer length. Ends of each flexible element are fixed on two sliders using deadeyes. The deadeyes are fitted between sliders using articulated joints. The sliders are installed with possibility to be shifted along guides mounted on conveyor frame by means of pillars. Each of the guides is formed by two T-beams. The guides with belt plane form sharp angle the vertex of which is oriented towards conveyor tail. The guides are equipped with thrusts on their ends with possibility of their interaction with the slides. Initially, the lower part of flexible element is located on the line corresponding to belt deflection between roll supports of the belt.

EFFECT: belt load-carrying branch catching is provided after its break under increased braking force, length of brake path, belt and catching device loading, catching time are decreased, reliability of catching device operation is increased.

3 cl, 4 dwg

Description

The invention relates to conveyor engineering, and in particular to inclined belt conveyors designed for transporting bulk cargoes for lifting - lifting and inclined, with the groove in the cross section of the tape resting on stationary roller bearings.

Known inclined belt conveyor (prototype), containing an infinitely closed in the vertical plane of the hanging tape, forming the upper load-bearing and lower idle branches, between the load-bearing and non-working branches of the tape with a certain step along the length of the conveyor are flexible elements in the form of steel wire ropes, the free ends of which are fixed on the racks of the conveyor, while the flexible elements during normal operation of the conveyor are placed with a minimum clearance in relation to the load-bearing branch of the belt (US Pat. RF No. 2285650, B65G 15/08, 20 06 g.).

However, the known conveyor does not fully utilize the capabilities of the catching device when braking force is applied after the belt breaks.

The technical result of the invention is to increase the braking force, reduce the braking distance of the load-bearing branch of the tape after its breakage and increase the reliability of operation of the trapping device.

The technical result is achieved by the fact that in an inclined belt conveyor containing a tape infinitely closed in the vertical plane that forms the upper load-bearing and lower non-working branches, flexible elements in the form of steel wire ropes are placed between the load-bearing and non-working tape branches with a minimum clearance relative to the load-bearing branch the free ends of which are placed on the conveyor frame, according to the invention, each end of the flexible element is fixed on two sliders using a thimble placed between them and mounted on sliders with the possibility of shifting the sliders along a guide mounted on the conveyor frame and formed by two beams of T-section cross-section, the guide with the plane of the tape forming an acute angle, the apex of which is oriented towards the tail of the conveyor, and is equipped with stops at their ends with the possibility of their interaction with the said sliders, and in the initial position, the lower part of the flexible element is placed on the line corresponding to the arrow of the sag of the tape between the roller supports. The guides can be oriented horizontally or with a rise in the direction of the tail of the conveyor.

Inclined belt conveyor is presented in figure 1 is a side view, figure 2 is a section aa in figure 1, figure 3 is a section bB in figure 2, figure 4 is the position of the conveyor belt and elements capture device when catching the tape.

An inclined belt conveyor with an angle β of inclination to the horizon contains an infinitely closed in the vertical plane belt forming the upper load-bearing 1 and lower non-working (not shown) branches. The supports for the tape can be in the form of a set of cylindrical rollers 2, forming a transverse grooved profile of the tape 1, or disk rollers (not shown) interacting with the sides of the tape of a certain profile (not shown). Between the load-bearing 1 and non-working branches of the tape with a minimum clearance of 3 with respect to the load-carrying branches of the tape 1, flexible elements are placed in the form of steel wire ropes 4 located at the same pitch along the length of the conveyor. The ends of each flexible element 4 are fixed on two sliders 5, 6 and 7, 8 with thimbles 9 and 10. The thimbles 9 and 10 are placed between the sliders 5, 6 and 7, 8 by means of hinges 11. The sliders 5, 6 and 7, 8 are installed with the possibility of their displacement along the guides mounted on the frame 12 of the conveyor using racks 13 and 14. Each guide is formed by two beams 15, 16 and 17, 18 of T-shaped cross-section. The rails from above can be covered by removable covers 19 and 20. The rails with the plane of the belt 1 form an acute angle α, the apex of which is oriented towards the rear of the conveyor. The guides are equipped with stops 21 and 22 at their ends with the possibility of their interaction with the sliders 5, 6 and 7, 8. In the initial position, the lower part of the flexible element 4 is placed on the line corresponding to the arrow of the sag of the tape 1 between the roller supports 2. Guides 15, 16 and 17, 18 can be oriented horizontally (with α = β) or with a rise towards the rear of the conveyor (α> β); 23 - transported cargo, 24 - longitudinal profile of the lower section of the load-bearing branch 1 of the tape when it is caught.

Inclined belt conveyor operates as follows. During normal operation of the conveyor to lift the transported cargo 23, the flexible elements 4 do not impede the movement of the load-bearing branch 1 of the belt due to the constant minimum clearance 3 between them. The possibility of displacement of the sliders 5, 6 and 7, 8 together with the flexible element 4 in the direction of movement of the load-bearing branch of the belt is limited by the stops 22. After the break of the belt, its load-bearing branch 1, after stopping under the influence of sinusoidal components, the weight of the tape 1 and the weight of the transported cargo 23 starts to slide down . In this case, the longitudinal tension of its load-bearing branch 1 is close to zero in value, therefore, the tape 1 sags in comparison with its working position to a much greater extent and therefore, after a break, the tape 1 comes into contact with the flexible element 4. Due to the friction forces between them at the movement of the load-bearing branch 1 of the tape down the flexible elements 4 are deflected in the direction of movement of the tape 1 when it rolls on the roller bearings 2.

After coming into contact with the load-carrying branch 1 of the tape of the flexible elements 4 and the displacement of the sliders 5, 6 and 7, 8 with their subsequent stopping by the stops 21 due to the arising between the tape 1 and the flexible elements 4 and the ever increasing friction forces, the flexible elements 4 will continue to rotate along clockwise, supporting the load-bearing branch 1 of the tape from the bottom with the formation of a deformed section 24 in the zone of interaction of the tape 1 with the flexible element 4, which ultimately leads to a complete braking of the tape 1 and its fixation in this position. Moreover, due to the placement of the sliders 5, 6 and 7, 8 between the beams 15, 16 and 17, 17 of the T-shaped cross section forming the guides, the sliding of the sliders from the guides when catching the torn tape 1 is excluded.

The capture efficiency of the load-bearing branch 1 of the tape by the flexible elements 4 is significantly increased due to the fact that due to the friction forces between the tape 1 and the flexible elements 4 with their rotation in the direction of rolling of the tape 1, the sliders 5, 6 and 7, 8 are also shifted along the guides same direction. In this regard, the flexible elements 4 not only raise the tape 1 due to their deviations from the vertical position, but also additionally lift the tape 1 due to the own lift of each flexible element 4 together with the sliders, which due to the orientation of the guides at an angle α to the plane of the tape 1 they are lifted above it, shifting up the flexible elements 4 together with the belt 1. This creates additional braking of the belt 1 with the transported load 23 located on it. Due to the combined effect of all the listed braking forces roiskhodit sturdy load-bearing capture branch 1 after its termination with a minimum braking distance and the limited value as the dynamic load component tape 1, and the elements of the trapping means due to the rapid rise of magnitude braking force immediately after the tape breakage.

Distinctive features of the invention provide for the capture of the load-bearing branch of the belt of the inclined conveyor with the hanging belt after it breaks with increased braking force, which reduces the braking distance, collection time, load on the belt and elements of the catching device, which improves the reliability of the catching device of the proposed inclined conveyor in comparison with a prototype conveyor.

Claims (3)

1. An inclined belt conveyor containing a tape infinitely closed in the vertical plane, forming the upper load-bearing and lower non-working branches, flexible elements in the form of steel wire ropes are placed between the load-bearing and non-working tape branches with a minimum clearance relative to the load-bearing branch, the free ends of which are placed on conveyor frame, characterized in that each end of the flexible element is fixed on two sliders with a thimble placed between them and pivotally mounted on the sliders with possible the displacement of the sliders along the guide, mounted on the conveyor frame and formed by two beams of T-shaped cross-section, and the guide with the plane of the tape forms an acute angle, the apex of which is oriented towards the tail of the conveyor, and is equipped with stops at their ends with the possibility of their interaction with the said sliders, and in the initial position, the lower part of the flexible element is placed on a line corresponding to the arrow of the sag of the tape between the roller bearings. 2. The conveyor according to claim 1, characterized in that the guides are oriented horizontally. 3. The conveyor according to claim 1, characterized in that the guides are oriented with lifting towards the rear of the conveyor.

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