NL7908168A - Non-cohesive granular material conveyor - has drum with supports and recesses for rope and protruding components - Google Patents

Abstract

The conveyor is for non-cohesive material in powdery or granular form, particularly animal fodder, having a passage containing a sliding rope to which radially-protruding components are fixed at regular intervals, and guided through one or more curves by freely-rotating drums round whose periphery it passes. The periphery of the drum is formed by a succession of supports (16) for the rope (21) between the components (22), and which alternate with recesses (18) accommodating the latter. Thus both the rope and the components are supported for the full length of the curve round which they pass.

Description

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Transport device for non-cohesive granular or powdered material.

The invention relates to a transport device for non-cohesive granular or powdered material, in particular animal feed. Devices of this type generally include a 5-bend transport channel in which a flexible element slides, normally a cable, on which radially projecting elements, such as writing, are secured at evenly spaced intervals such that their outer profile is substantially consistent with the internal profile of the channel.

Suitable guiding devices, generally consisting of drums, are freely rotatably mounted in housings which are connected to the supply and discharge channels and which are located in the bends of the channels. The circumference of the drum thus forms the inner surface of the bend, which is essentially in the form of a circular sector. Various embodiments of such drums have already been proposed for guiding and supporting the transport cable around a bend.

In a known embodiment the periphery of the free-rotating drum is provided with grooves at equal distances and the radially projecting elements of the transport cable can be included in these grooves.

This system has the drawback that the cable often breaks due to the fact that due to the tensile force applied to it, the cable is pulled around the bend in the form of a polygon, so that the cable is subject to bending stresses at the base of each element, so that fatigue fracture can occur at the location of the connection between the cable and a radial element.

According to another embodiment, the radial elements are not received in circumferential grooves in the free-spinning drum, but projections are provided on the drum circumference, for supporting the cable parts between the radial elements, while cavities are provided for freely receiving the radial elements. This embodiment has the advantage that there the cable parts between the radial 790 8 1 68

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- 2 - elements rest on the protrusions ,, the cable can take a nearly circular curved shape without local bending. However, in order to prevent damage to the steel cable due to the friction against the protrusions on the rotating drum, these protrusions must be made of a material softer than steel (normal light metal or plastic}, leading to rapid wear of the supporting protrusions and consequently a change in the center-to-center distance of the protrusions from the center-to-center distance of the elements protruding from the cable, adversely affecting the entire transport system. A further drawback of such a device lies in the fact that granules or pieces of the transported material can easily be accommodated between the supporting protrusions and the relevant cable part which lies against it, which is a further non-controllable variation. in the center-to-center distance, whereby unauthorized loads can occur in the cable.

The aim of the invention is now to eliminate the drawbacks of the known devices and to provide a transport device for non-cohesive material existing. from a transport cable on which radially projecting elements are arranged at mutually equal distances, the transport device comprising at least one device for guiding the cable through a bend, which ensures that the cable is properly guided without being subjected to unacceptable loads and without a significant change in the center-to-center distance during operation of the device relative to the center-to-center distance of the radial elements mounted on the cable * For delivery for these purposes it has now been found advantageous according to the invention to shape the circumference of the drum through which the transport cable is guided around the bend in such a way that supports are obtained for both the cable parts between the radially projecting elements and for these elements themselves , so that 4Q both the cable parts and the elements are supported over 790 8 1 68 - 3 - the entire area ksb arch over which the cable is looped by the deflection troramel.

The cavities, which are arranged in the drum circumference to receive the elements protruding from the cable, preferably have substantially. a V-shape, viewed in a plane passing through the cable and perpendicular to the axis of rotation of the drum, such that the elements rest on the bottom of these cavities and are automatically centered by the two converging walls of the cavity. Of course, the center-to-center distance between the bottoms of the cavities will correspond to the center-to-center distance of the elements connected to and protruding from the cable.

The supports for the cable members between the projecting elements are located between the V-shaped cavities on the periphery of the drum and form a curved groove with a cross section in the form of a circular sector.

It should be noted that to ensure simultaneous support of the cable parts in the grooves and of the projecting elements in the V-shaped cavities, the difference between the radius (relative to the geometric axis of rotation of the drum from the base of the support grooves for the cable parts and the radius of the bottom of the V-shaped cavities must correspond to the radial protrusion of the elements from the axis of the cable, while in the case of disc-shaped elements the difference must be equal to the radius of these discs .

The support of the cable parts and of the radially projecting elements by the drum circumference, together with the automatic centering effect of the V-shaped cavities in which the elements are received, ensures that the transport element is correctly guided by the bends, while greatly eliminating the possibility of grains of the transported material entering the support areas. A further advantage of the device according to the invention is that the transport speed can be increased.

The invention is now further elucidated on the basis of an exemplary embodiment, shown in the drawing, in which: fig. 1 shows a top view and partial section 790 8 1 68 j A.

- 4 - shows of a boch.td.ee 1 of a. transport device according to the invention; and Fig. 2 shows a cross section according to the broken line II-II of Fig. 1.

The device consists of a housing 10 / which is closed by means of a lid not shown in fig. 1 and in the middle of which a drum 12 is mounted rotatably on a fixed shaft 11.

It will be noted that the section IQ shown in Fig. 2 shows only the drum 12, without the housing 10 and the central shaft 11.

The drum 12 includes a hub 13, a circumferential ring 15 and spokes 14 connecting the ring 15 to the hub 13.

The outer surface of the circumferential ring 15 is formed by a succession of support regions 16, which alternate with the cavities 17. As can be seen in particular from Fig. 1, the cavities 17 have a V-shaped profile in a section at right angles to the axis of rotation of the drum 12. The bottom 18 of the cavities 17 is slightly curved, as can be seen from Figure 1. The support regions 16 are also curved both in the circumferential and transverse directions, so that double curved grooves are obtained.

The housing 10 includes two tangential inlets 19 and 20 connected to the transport channels (not shown). The transport cable 21, which is equidistant from the radially projecting elements 22, which are discs in the embodiment shown, runs through the housing 10 and the inlets 19 and 2Q. It will be noted that the center-to-center distance of the discs 22 on the cable 21 accurately corresponds to the center-to-center distance. of the V-shaped cavities 17 in the periphery of the ring 15 of the drum 12.

When the cable 21 with its discs. 22 passing through the housing 10, it rests over a certain arc of the circumference on the drum 12.

As shown in particular in Fig. 1, the discs 22 rest on the bottom 18 of the cavities 17, the walls of which converge towards the bottom 18 and automatically center the disc in the relevant cavity. The parts of the cable 21, on the other hand, rest between the discs 22 in the 790 8 1 es-5 grooves of the support parts 16 and because of the double-curved shape of these grooves, the heater parts are effectively supported by it.

In order to ensure simultaneous support of the parts of the cable 21 in the regions 16 and of the sheaves 22 in the cavities 17, the difference between the radius of the Base of the grooves in the support parts 16 and the radius of the bottom of the cavities 17 are equal to the radius of the discs 22.

10 Although the drawing shows a shape in which the cable is guided over an angle of 9 °, it will be clear that guidance can also take place at a different angle depending on the shape of the housing 10, and the fastened on the cable elements 15 have a different shape than the displayed disk shape.

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Claims (5)

1. Transporting device for non-cohesive granular or powdered material, In particular fodder, comprising a transporting channel in which a cable slides on which radially projecting elements are arranged at mutually equal distances, the transporting device comprising at least one device for guiding the cable through a bend, which Device is formed by a drum which is freely rotatable in a sleeve and which guides the cable along its circumference, characterized in that the circumference of the drum is formed by a succession of support plates for the cable sections between the radially projecting elements, alternating with support cavities for the elements so that both the cable and the elements are supported along the entire bend following the cable, 2. Device as claimed in claim 1, characterized in that, viewed in a cross section perpendicular to the axis of rotation of the drum, the support cavities for the radially projecting elements have substantially a V-shaped profile 2Q with inwardly converging walls. 3. Device as claimed in claim 2, characterized in that the bottom of the cavities is curved and convex as seen in transverse direction, 4. Device as claimed in any of the foregoing claims, characterized in that the supporting members for the cable parts are formed by grooves which are bent in both circumferential and transverse directions. 5. Device as described and / or shown in the drawing. 790 8 1 68