RU2406673C2 - Bucket elevator for lumpy cargo - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: proposed elevator comprises flexible haulage member with buckets fastened thereto with equal spacing. Bucket fasteners represents four hinge assemblies. Note here that bucket is attached to haulage member directly in two pints, while in two other points it is connected by connecting links. The latter are made up of dual slotted guides limited by cross bars, said guides being arranged on buckets and directed parallel the bucket bottom. Slotted guides can displace and turn the pins arranged on haulage member. Note here that the parametres of abode described joint are governed by the following relationship: ℓ≥ar/R+d, where ℓ is slotted guide length between cross bars inner edges, a is distance between joint hinges axes over the haulage member length on linear section, r is extension of hinges axes above drum cylindrical surface, R is drum radius, and d is pin diametre.

EFFECT: higher load carrying capacity, reliability and efficiency.

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Description

The invention relates to elevator construction, namely to bucket elevators, and can be used for transportation of goods with increased particle size.

Known bucket elevator containing endlessly closed on the drive and tension drums traction-bearing body, consisting of buckets attached with the same pitch to a flexible rubberized tape, and with its placement inside the casing with gaps relative to its side walls, fasteners for mounting the buckets to the tape loading and unloading nozzles (Spivakovsky A.O., Dyachkov V.K. Transporting machines., M., Mechanical Engineering, 1968, p.331-332, Fig. 235).

The disadvantages of the known elevator are the limitation of the size and capacity of the buckets, as well as the size of the pieces of transported cargo due to the possibility of tearing the buckets from the tape when the buckets are linearly attached to the tape with the fasteners placed along a line oriented in the direction transverse to the tape, due to centrifugal forces when rounding with buckets of drive and tension drums and when scooping the transported cargo in the elevator shoe, the elevator performance is limited due to the low bearing capacity ovshey, decrease in the breaking strength tape through the placement of a considerable number of fasteners on the tape width and the related need to make holes in the tape.

Known bucket elevator (prototype), containing a traction-bearing body infinitely closed on the drive and tension drums, consisting of buckets attached with the same step to the flexible traction body in the form of steel wire ropes, and with its placement inside the casing with gaps relative to its side walls , loading and unloading nozzles. The fasteners for fastening the buckets to the traction body are made in the form of four hinge assemblies attached to it, while at two points the bucket is attached to the traction body directly, and at two points using connecting links (SU No. 117906, class 81 e, 1959) .

A disadvantage of the known elevator is the complicated design of the fasteners due to the need to include two rotary connecting links, as well as additional frictional wear of the hinges of the connecting links when they are rotated in one or the other direction when the buckets bend around the drums in the areas of buckets and run-offs from the drums.

The technical result of the invention is the possibility of increasing the capacity of the buckets and transporting lumpy cargo with increased productivity, increasing the reliability of the elevator by simplifying the design of the attachment points of the buckets to the traction unit and reducing the friction forces in the hinges of the mentioned attachment points of the buckets to the traction unit.

The technical result is achieved by the fact that in the bucket elevator for bulk cargo containing a casing, loading and unloading nozzles, a flexible traction body with buckets attached to it with the same pitch, infinitely closed in a vertical plane on the drive and tension drums, and fasteners for fixing buckets to the traction body is made in the form of four hinged nodes fixed on it, while at two points the bucket is attached directly to the traction body, and in two using connecting links, according to and acquiring connecting links are formed as double cross members bounded slotted guides fixed on the ladle, and oriented parallel to the bottom, with possibility of rotation and displacement in guides mounted on the traction organ fingers with the performance of hinges of functions, and their parameters are determined by the relation

l≥ar / R + d,

where l is the length of the slot guide between the inner edges of the cross members, and is the distance between the hinge axes of the bucket attachment unit to the traction member along its length in a linear section, r is the excess of the hinge axes over the cylindrical surface of the drum, R is the radius of the drum, d is the diameter of the finger.

The bucket elevator for lump loads is presented in figure 1 - side view, figure 2 - section aa in figure 1, figure 3 - node mounting the bucket to the tape using connecting links with slotted guides, figure 4 - section BB in figure 3.

The bucket elevator for lump loads contains a pulling element infinitely closed in a vertical plane on the drive 1 and tension 2 reels, for example, in the form of a rubberized tape 3 with buckets 4 attached to it with the same pitch, casing 5, loading 6 and unloading 7 pipes.

Fasteners for fastening the buckets 4 to the traction body 3 are made in the form of four hinged assemblies 8, 9 mounted on the bucket 4 in the upper part of the bucket and 10, 11 in the lower part of the bucket. Moreover, at two points corresponding to the hinges 8 and 9, the bucket 4 is attached directly to the traction body 3, and at two points corresponding to the hinges 10 and 11, using connecting links. The connecting links are made in the form of slotted guides 12 mounted on the bucket 4 and oriented parallel to the bottom of the bucket 4, with the possibility of displacement and rotation in the slotted guides 12 fixed on the traction body 3 (for example, tape) of the fingers 13 that perform functions and form a pair of hinges 10 and 11 on both sides of the bucket 4. Slotted guides 12 are made double and are limited in length by the cross members 14 and 15. The parameters of this mounting unit are determined by the ratio

l≥ar / R + d,

where l is the length of the slot guide between the inner edges of the cross members, and is the distance between the hinge axes of the bucket attachment unit to the traction member along its length in a linear section, r is the excess of the hinge axes over the cylindrical surface of the drum, R is the radius of the drum, d is the diameter of the finger. The magnitude b of the displacement of the fingers 13 in the slotted guides 12 is equal to b = ar / R. For example, with a = 0.4 m, r = 0.045 m, R = 0.4 m, d = 0.03 m, b = 0.045 m, l≥0.075 m. 16 - transported cargo.

Bucket elevator for lump loads operates as follows. The cargo 16 to be transported through the loading pipe 6 is fed into the casing 5, alternately filling buckets 4 of increased capacity, which are centrifugally unloaded into the pipe 7. The load from the increased weight of the transported cargo 14 and from the weight of the bucket 4 is transferred to the belt 3 through two pairs of fasteners - hinges 8, 9 and 10, 11, which ensures the necessary strength of the connection between the buckets 4 and the tape 3. When you bend around the tape 3 drive 1 and tension 2 drums and scooping the transported cargo and 16 in the shoe of the elevator there is no violation of the strength of the connection of the buckets 4 with the belt 3, since when the buckets 4 enter the curved section, the fingers 13 of the hinge assembly 10 and 11 are displaced along the double slotted guides 12 of the bucket 4 by a value b corresponding to the difference between the length of the circular arc on which the axes of the fingers 13 are located when the buckets bend around the drums 4 and 1, and the distance a between the hinges 8, 9 and 10, 11 on a straight section of the tape 3 between the drums 1 and 2. The selected length l of the slot guide 12 allows you to fully compensate The specified difference in the lengths of the mentioned sections when the bucket 4 is located within the arc of the traction body 3 of the drum 1 or 2. The maximum displacement of the fingers 13 relative to the slotted guides 12 is limited by the cross-members 14 and 15. Due to this, without a radial deviation of the bucket 4 relative to the drums 1 and 2 on a curved section, and due to only a slight displacement of the fingers 13 in the slotted guides 12 of the bucket 4, reliable fixation of the bucket 4 relative to the traction member 3 is ensured without violating the strength properties of the traction member 3 and when perceived construction of the attachment point of the buckets 4 to the traction body 3.

Distinctive features of the invention allow to increase the capacity of the buckets and provide transportation of bulk cargo with increased productivity and increased reliability of the elevator due to simplification of the design of the attachment points of the buckets to the traction unit and reduction of the friction forces in the hinges of the mentioned attachment points of the buckets to the traction unit.

Claims (1)

A bucket elevator for lump loads, containing a casing, loading and unloading nozzles, a flexible traction body infinitely closed in a vertical plane on the drive and tensioning drums with buckets attached to it with the same pitch, fasteners for fixing buckets to the traction body are made in the form of fixed on it four hinged nodes, while at two points the bucket is attached directly to the traction body, and at two points with the help of connecting links, characterized in that the connecting links are made in bounded by cross-members, double slotted guides mounted on buckets and oriented parallel to the bottom of the bucket, with the possibility of displacement and rotation in the guides of the fingers fixed on the traction body with the fulfillment of hinge functions, while their parameters are determined by the ratio
l≥ar / R + d,
where l is the length of the slot guide between the inner edges of the cross members, and is the distance between the hinge axes of the bucket attachment unit to the traction member along its length in a linear section, r is the excess of the hinge axes over the cylindrical surface of the drum, R is the radius of the drum, d is the diameter of the finger.

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