CS248448B1 - Slip with oscillating system for transport of loose materials - Google Patents

Abstract

The solution concerns a chute with the ability to oscillate or shake, used for various types of transport and pouring of bulk materials tending to stick to the walls of the chute and which, in addition to stickiness, is also characterized by abrasive properties, and the invention also solves the autogenous cleaning of the functional transport and impact surfaces of the chute while simultaneously increasing its anti-abrasive properties. A chute with an oscillating system for transporting bulk materials consisting of a chute body flexibly suspended by springs to the surrounding structure is designed in such a way that at least one flexible curtain (7) is attached to the surrounding supporting structure (1) with its upper part on a hinge (8). The lower part of which extends into the outlet space (9) of the chute body (3). The chute body (3) is equipped with at least one vibrator (4). Anti-abrasive, ceramic, metal, plastic or spring elements (11) are attached horizontally to the hanging screen (75) with gaps (10). The anti-abrasive elements (11) are provided with impact projections (12) with impact surfaces (13) which form an obtuse angle <b· with the vertical plane of the element (11).

Description

The present invention relates to a slipper having the ability to oscillate or to oscillate for various types of transport and pouring of loose substances inclined to adhere to the walls of the slipper, which besides tackiness also has abrasive properties, and the invention also solves autogenous cleaning of functional traffic and impact surfaces. increasing their anti-abrasive properties.

The existing chutes for the transport of filling or discharging of loose materials with sticky and possibly abrasive properties are usually solved as oscillating or at least with the possibility of oscillation. This function is achieved in that the chute is supported by springs in relation to the surrounding supporting structure and can optionally be provided with one or two vibrators. If the slip is mounted only on springs with respect to the surrounding structure, the transport of bulk material causes forced oscillation due to the impact of material clusters impinging on the functional transport surfaces of the chute, while the accelerating oscillation forces functionally against sticking loose materials in the chute. Another positive feature of this arrangement is that on impact of a bulk material cluster with more pronounced tack properties, the energy of the incident fabric cluster may be to slide the chute on a track of a certain magnitude corresponding to the impact energy of the cluster and influenced also by the chute weight and stiffness of its supporting springs. The inertia forces which, when the bulk material tending to adhere to the functional transport surface of the chute are one of the main factors of adhesion, thus decrease the tendency of the substance to adhere. The disadvantage of this embodiment is the low efficiency of the vibration of the slip forced only by the impact impacts of the transported substance, because the resulting accelerations are relatively small and the resulting oscillating movement is very sensitive to damping, which in these cases is high. Therefore, the chutes are provided with one or more vibrators, resulting in vibration chutes, which may already have sufficiently large and selectable acceleration values, thereby increasing in real terms the intensity of their

248 448 sticker effect · The disadvantage of these systems is their mechanical demands, both in terms of design and construction, as well as maintenance, because there is acceleration and inertia forces of alternating character and considerable size. In addition, the appropriate amplitude and vibration frequency must be qualified and determined for the nature of the particulate matter and the slip parameters, since the improper selection of these factors may result in suppression or even nagging of the vibration system function. Consideration must also be given to the fact that the operating conditions under which the parameters entered may change, for example changes in the physical properties of the particulate material. In addition, in cases where the transported substance is abrasive, the oscillating chutes are provided with linings of abrasion-resistant metals, rubber or plastics. Metal linings increase the weight of oscillating parts of the chute, plastic and rubber liners cause complications when attached to the functional surfaces of the chute and are additionally susceptible to damage.

These drawbacks are largely eliminated by a slip with an oscillating system for transporting loose materials, consisting of a chute body resiliently suspended by springs on the surrounding structure according to the invention, characterized in that at least one elastic suspension curtain is attached to the surrounding supporting structure , the lower part of which extends into the discharge space of the chute body. According to the invention, the chute body is provided with at least one vibrator and anti-abrasive metal, plastic or rubber elements are mounted horizontally, with gaps, to the suspension screen.

The advantage of the invention is the reduced sticking of the transported bulk material on the functional conveying surfaces of the chute and at the same time improving the anti-abrasive properties and thus increasing the lifetime of the whole chute. Reducing the tendency of the material to be adhered is achieved by elastic deformations, undulating movement and, in particular, secondary shocks resulting from the rebounding and restraint of the resilient suspension curtain on the inner surfaces of the chute as a result of repeated impacts of the transported material aggregates on the central part of the suspension curtain. These shocks give rise to acceleration peaks, which are added to the periodicals by the acceleration of the basic oscillating movement of the chute, giving rise to increased acceleration values, which remove the stickers from the functional surfaces of the oscillating chute. In the case of the installation of abrasion-resistant elements acting as a stripped weight on the suspension curtain, the intensity of the impact effects is further increased. The increase in abrasion resistance and thus the lifetime of the whole slip is achieved by the bulk material

- 3 248 448, which is deflected in an oscillating chute, does not directly fall on the functional transport surface of the chute, but on the flexible curtain, which is easily replaceable in the event of wear. When adjusting the system, it is important that the upper envelope of the flow of bulk solids fed into the oscillating chute contacts the surface of the flexible curtain at a lower location than the upper edge of the chute body.

The invention is illustrated by way of example in the accompanying drawings, in which Fig. 1 shows a longitudinal section of a vibration chute and Fig. 2 shows a longitudinal section of a lower part of a flexible curtain with fixed anti-abrasive elements.

A slip body 2 is hinged to the surrounding support structure 1 on the springs g, to which the vibrator 4 imparts an oscillating movement. The loose material 2 is poured into the chute 2 by a conveyor belt 2 ^and falls below the upper edge of the chute 2 ^{onto a} Fire Curtain 2, which is fastened to the hinge 8 of the supporting structure 2 by its upper end. 1). The hinge aperture 2 are horizontally mounted with gaps 10 antiabrasive Cast steel articles 11 which are impingement projections 12 forming the reinforcement of articles 11 and impact surface 13 _f extending from the vertical plane of the article concludes the 11th cluster on impact with solids two tilting moment which cooperates positively on the tilting movement of the cell 11 and the undulating movement of the whole curtain 2 ·

Claims (4)

1. An oscillating system for conveying loose materials consisting of a chute body resiliently suspended by springs on the surrounding structure, characterized in that at least one resilient suspension curtain (7) is attached to the surrounding load-bearing structure (1) by its upper part on the hinge (8). »Whose lower part extends into the discharge space (9) of the chute body (3) · Slip according to claim 1, characterized in that the chute body (3) is provided with at least one vibrator (4). Slip according to Claims 1 and 2, characterized in that ceramic, metal, plastic or rubber elements (11) are mounted horizontally with gaps (10) to the suspension screen (7). Slip according to claim 3, characterized in that the anti-abrasive members (11) are provided with impact projections (12) with impact surfaces (13) which form an obtuse angle with the vertical plane of the member (11).