RU2198127C2 - High-angle belt conveyor - Google Patents

Abstract

FIELD: conveyor transport. SUBSTANCE: proposed high-angle belt conveyor has endless conveyor belt laid over drive and end drums and provided with hangers, uniformly spaced over belt edges and each furnished with rollers installed for rolling along guides installed at both sides of conveyor and load-holding partitions hinge- coupled with hangers. Load-holding partitions are made in form of members capable of changing their spatial curvature being pressed, under action of gravity force on conveyor carrying run, to working surface of belt. Carrying capacity of load-holding partition, depending on weight of carrying run and angle of conveyor inclination is defined by ratio N = (Qn/i)sinα, where N is carrying capacity of load-holding partition, N; n is strength safety factor (n>1); Q is weight of conveyor carrying run, N; I is number of load-holding partitions tilted relative to longitudinal axis of conveyor by means of which each hanger is connected with hangers of opposite edge of belt; α is angle of inclination of conveyor, deg. Length of load-holding partitions is chosen to provide rectilinear shape of partitions on flattened idle run of belt with touching of belt surface. Each hanger is connected by load-holding partitions with two or more hangers of opposite edge of belt. Load-holding partitions are made in form of round link chains. EFFECT: provision of reliable displacement of load along high-angle path. 4 cl, 4 dwg

Description

 The invention relates to conveyor transport, namely to steeply inclined belt conveyors.

 A steeply inclined belt conveyor is known, including a support frame with guides for moving the running trolleys, on which a load-carrying tape is fastened, enveloping the drive and tension drums, and a beam with articulated bridges with load-holding partitions that are mounted on the beam with the possibility of contacting with the load-bearing surface of the belt. Traverses are made telescopic. They have the possibility of a limited rotation around its axis. This provides a self-installation of partitions in the working position in the loading zone of the conveyor [1].

 The disadvantage of this conveyor is the inability to clean the tape from adhering cargo particles by simple mechanical means, as well as the fall of the tape with the load in case of emergency breakage.

 Closest to the claimed technical solution is a steeply inclined conveyor with a hanging belt, containing an envelope of the drive and end drums, an endless conveyor belt, on the sides of which the suspensions are evenly fixed, each of which is equipped with rollers rolling along the guides installed on both sides of the conveyor, and also pivotally connected to suspensions load-retaining partitions. Each of the suspensions in the lower part is equipped with two protrusions, in which, with a finger and a sleeve, with a gap, two plates are rigidly mounted on the sleeve, between which are fixed with the possibility of rotation in a plane perpendicular to the longitudinal axis of the conveyor, a load-holding partition, which is pressed by gravity on the cargo branch of the conveyor to the working surface of the belt, and on the running branch - departing from the belt, freeing it for cleaning. The load-retaining partitions are made of elastic material [2].

 The disadvantage of this conveyor is that the cantilever fastening of the elastic load-retaining partitions to the suspensions deprives them of the necessary rigidity and ability to effectively hold the load on the tape. This reduces the operation of the conveyor at large angles of inclination. In addition, in the event of an emergency break in the tape, injury to service personnel is possible. The disadvantage of the conveyor is that in the event of a break in the attachment to the tape of one of the suspensions, the latter, if it is not connected with the tape, can jam on the guide. In this position, it can cause a break and other suspensions moving along this guide. This can lead to failure of the conveyor.

 The objective of the invention is the reliable movement of cargo along a steep slope.

 This goal is achieved by the fact that the proposed device according to the invention contains an envelope of the drive and end drums of an endless belt, on the sides of which the suspensions are evenly fixed, each of which is equipped with two rollers rolling along the guides mounted on both sides of the conveyor, as well as load-holding partitions pivotally connected to the suspensions .

где N - несущая способность грузоудерживающей перегородки, Н;
n - коэффициент запаса прочности (n>1);
Q - вес грузовой ветви конвейера, Н;
i - количество грузоудерживающих перегородок, наклонных к продольной оси конвейера, которыми каждая подвеска соединена с подвесками противоположного борта ленты;
α - угол наклона конвейера, град.New in the claimed invention is that the load-retaining partitions are made in the form of elements capable of changing their spatial curvature, pressed under the influence of gravity on the conveyor cargo branch to the working surface of the belt, while the load-bearing partition bearing capacity is determined taking into account the weight of the cargo branch of the belt and the angle conveyor tilt, i.e. should be determined by the ratio

where N is the bearing capacity of the load-retaining partitions, N;
n is the safety factor (n>1);
Q is the weight of the cargo branch of the conveyor, N;
i is the number of load-retaining partitions inclined to the longitudinal axis of the conveyor with which each suspension is connected to the suspensions of the opposite side of the belt;
α is the angle of inclination of the conveyor, deg.

 The bearing capacity of the load-retaining partitions determined by the proposed dependence guarantees them from destruction and falling of the belt with the load down in case of emergency breakage, which increases the safety of service and the reliability of the conveyor. In addition, in the event of a break in the attachment to the tape of one of the suspensions, the latter, being connected by load-retaining partitions with other suspensions, retains its working position and does not violate the mode of movement of the tape. This ensures reliable operation of the conveyor. Moreover, each suspension is connected to the suspensions of the opposite side of the conveyor belt.

 Such load-retaining partitions, adapting to the curved surface of the belt, under the influence of their own weight and load, are able to reliably hold the load on an inclined belt, which increases the reliability of the conveyor at large angles of inclination. The length of the elements is such that in the laid out sections of the tape they take a straight line shape. In such a taut position, they practically touch the working surface of the tape and do not interfere with its cleaning from adhering cargo particles. Load-retaining partitions are made in the form of round link chains.

 When carrying out the invention, a technical result can be obtained consisting in the fact that the load-retaining partitions used in the proposed conveyor in the form of elements pivotally connected to the suspensions with spatial flexibility ensure reliable operation of the conveyor at large angles of inclination, and the bearing capacity of the partitions determined by the proposed dependence increases the service safety conveyor belt.

 In Fig. 1, a side view of a steeply inclined conveyor with a suspension belt is shown; 2 is a top view A from the working branch of the conveyor; FIG. 3 is a bottom view B from the idle branch of the conveyor; FIG. 4 shows a cross section of the linear part of the conveyor (section B-B of FIG. 1).

 A steeply inclined conveyor with a hanging tape includes mounted on the supports 1 and 2 of the drive conveyor frame 3 and the end 4 drums, on which there is an endless belt 5, driven by the drive (figure 1). On the sides of the conveyor belt 5, the right and left pendants 6 are uniformly fixed, equipped with upper 7 and lower 8 support rollers (figure 2), supported with free rolling on tube-shaped guides 9. The load-holding partitions 10 made in the form of elements capable of pivotally attached to the pendants change their spatial curvature, for example round link chains. Moreover, each suspension is connected to the suspensions of the opposite side of the conveyor belt (figure 2, view A). The length of the load-retaining partitions is such that in the laid out sections of the tape they take a rectilinear shape (Fig. 3, view B).

 The conveyor works as follows. When rotating by means of a drive of the drive drum 3, the tape 5 is given translational motion (to the right in Fig. 1). At the same time, the tape 5 carries along the suspension 6 attached to its sides (Fig. 4), which, with the help of the upper 7 and lower 8 support rollers placed on them, freely roll along the tube-shaped guides 9 (Fig. 4). The load-retaining partitions 10 (Fig. 4) pivotally mounted on the suspensions are adapted to the curved surface of the working branch of the belt under the influence of their own weight and load (Fig. 4). In this position, the load-bearing partitions 10, stretching like flexible threads, prevent the load from sliding along the inclined belt. When laying the tape on an idle branch (Fig. 2), the load-bearing partitions take a straight shape, touch the working surface of the tape and do not interfere with its cleaning from adhering cargo particles by known, including mechanical means.

 In the event of an emergency breakdown of the belt 5, the load-bearing partitions, possessing the necessary load-bearing capacity defined in accordance with expression (1), do not collapse and hold the belt with the load on drums 3 and 4, preventing it from falling with the load and injuring maintenance personnel.

 The technical and economic advantage of the claimed invention lies in the fact that in the proposed conveyor load-retaining partitions pivotally connected to the suspensions are made in the form of elements capable of changing their spatial curvature, effectively preventing the load from sliding along the belt. This allows you to reliably transport cargo at large angles of inclination of the conveyor. Stretching in a straight line and located directly at the surface of the idle branch of the tape, the load-retaining partitions do not interfere with the cleaning of the tape using known devices. The load-retaining partitions, having a bearing capacity determined by the proposed expression (1), hold the tape on the drums in case of emergency breakage, which reduces the risk of injury to staff and reduces the cost of restoring the conveyor.

Sources of information
1. Patent 2118607, MKI B 65 G 15/08.

 2. Patent 2152896 MKI B 65 G 15/08.

Claims (4)

1. A steeply inclined conveyor with a hanging belt, containing an envelope of the drive and end drums, an endless conveyor belt, on the sides of which the pendants are evenly fixed, each of which is equipped with two rollers mounted with the possibility of rolling on both sides of the conveyor rails, as well as load-holding partitions pivotally connected to the pendants characterized in that the load-retaining partitions are made in the form of elements capable of changing their spatial curvature, pressed under the action of force yazhesti on the load branch of the conveyor to a working surface of the belt, the load carrying capacity gruzouderzhivayuschey partitions depending on the weight of cargo conveyor branches and the angle of inclination is determined by the relation

where N is the bearing capacity of the load-retaining partitions, N;
n is the safety factor (n>1);
Q is the weight of the cargo branch of the conveyor, N;
i is the number of load-retaining partitions inclined to the longitudinal axis of the conveyor with which each suspension is connected to the suspensions of the opposite side of the belt;
α is the angle of inclination of the conveyor, deg.  2. The conveyor according to claim 1, characterized in that the length of the load-retaining partitions is such that, on the laid out idle branch, the partitions take a rectilinear shape and touch the surface of the belt.  3. The conveyor according to claim 1 or 2, characterized in that each suspension is connected by load-retaining partitions with two or more suspensions of the opposite side of the belt.  4. The conveyor according to any one of claims 1 to 3, characterized in that the load-retaining partitions are made in the form of round link chains.

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