EP1216108B1 - Device for orienting and optionally sorting longitudinal particles - Google Patents

Abstract

The invention relates to a device for orienting and optionally sorting longitudinal particles (P) of different sizes comprising a trough-shaped vibrating conveyor (1), whereby the base (12) of the trough-rim has a trough section (13) oriented in direction of conveyance(X). A dividing cleft is provided between the downstream end (15) of the vibrating conveyor (1) and a subsequent, second conveyor (2) in order to sort the longitudinal particles (P). Said oriented longitudinal particles can be arranged in a predictable manner using said device.

Description

• bei dem der Boden der Trogrinne des Rüttelförderers in Förderrichtung ausgerichtete Rinnenprofile aufweist,
• bei dem zwischen angrenzenden Rinnenprofilen Trennstege ausgebildet sind,
• bei dem am stromabwärtigen Ende des Rüttelförderers eine Einrichtung zum Ausschleusen von länglichen Partikeln allein oder mit einer anderen Fraktion von Partikeln aus dem Produktstrom vorgesehen ist,
• bei dem am stromabwärtigen Ende des Rüttelförderers ein zweites Fördermittel vorgesehen ist.

The invention relates to a device for aligning and optionally sorting particles of different size dimensions with a trough-shaped vibrating conveyor,

• in which the bottom of the trough of the vibrating conveyor has channel profiles aligned in the conveying direction,
• in which separating webs are formed between adjacent gutter profiles,
• in which there is provided at the downstream end of the vibratory conveyor means for discharging elongated particles, alone or with another fraction of particles from the product stream,
• in which a second conveying means is provided at the downstream end of the vibrating conveyor.

Vibratory conveyors are used to transport particles of essentially any shape known. Such vibratory conveyors are shaped similar to a transport chute, wherein the conveyor substantially trough shape or a U-shaped Cross section has. This conveyor chute has only a slight incline in the conveying direction on, so that when not activated vibration drive to be transported Particles remain on the conveyor. When activated Vibration drive, the particles are then gravity in the conveying direction removed. A disadvantage of such conveyors is that elongated Particles at least up to a width of the trough shape corresponding Size expansion disorderly arbitrarily aligned on the conveyor and stay. An alignment of elongated particles is not intended and is with not reached the known in practice Rüttelförderem.

From DE 196 46 753 A1 is a device for quality and / or sizing Smaller products known. To a variety of small-sized Products such as potato chips, French fries, lentils or the like as possible defined and separated from each other an optoelectronic To be able to feed image converter, there is the receiving surface of a vibrating conveyor divided into 24 parallel single channels. Fin-like Conductive agents are designed to ensure uniform sorting of small parts on the various Provide channels.

In a similar form, DE 41 27 270 A1 proposes a device for classifying of tobacco particles. Here is the bottom of a vibratory conveyor with a running in the conveying direction groove profile, which is transverse to the conveying direction interrupted by slits. Long tobacco pieces cross the Slits, short are thrown off. This allows stalk and rib parts, which are unsuitable for cigarette making, from the others Tobacco pieces are separated.

In DE 33 19 032 A1 discloses a device for screening of Metal chips proposed by means of a vibrating screen. Here is the sieve bottom provided with extending in the conveying direction longitudinal grooves. The swarf screen leaves then fall through those metal chips whose longitudinal dimension is smaller than the Screen hole width is.

From GB 20 55 308 A a separation device is known, with the Polystyrot pellets with upper size separated from those of average size can be. By means of V-shaped grooves, the so-called "longs" are turned off Aligned extruded plastic. Here are the v-shaped gutters still additional projections out to push the longs into the gutters. At the end of the V-shaped grooves fall the proper plastic staples through a gap, while the longs bridge the gap and sorted out become.

From DE 692 08 176 T2 corresponding to EP 0 527 640 B1 is another Facility. known for feeding objects, with the ears of corn defined to be transported. This is a swinging bowl with elongated, V-shaped grooves equipped in a direction of movement of the Ears are aligned. The ears then lay in the V-shaped grooves.

For sorting product mixtures of different forms, these are known Facilities not provided. Each should be uniform or aligning very similar-looking particles, for example, only cereal ears, only potato chips, only metal chips, only polystyrene pellets or only Tobacco particles. For sorting randomly fed material different order of magnitude, as for example in Sammelcontainem is included, such devices are neither intended nor suitable. Frequently, flat parts (plates, newspapers, boxes) are mixed with small parts Waste (bottle corks, sand, ashes) and elongated parts (pins, cable residues, etc.). etc.). It makes sense to have a separation here for certain process steps for example, only products of a particular form feed further detection. It is very problematic, elongated To treat articles. On normal trough conveyors these elongated ones come Article either transverse or longitudinal or in any arrangement and be therefore of conventional sorters either as a large area or as Small-scale fragments viewed, depending on whether they are on the appropriate Inflow recognition apparatus transversely or longitudinally.

In the automatic handling of elongated particles in such product mixtures on transport and sorting devices, these behave unpredictably. Depending on the random orientation of the elongated objects, the one becomes or other property, so either the property "big" or the. Property "small" because either the elongated dimension of the elongated particle is recognized or the small width or the low Diameter of the elongated particle. The property associated with the particle depends on its accidental situation. When sorting takes place thus no reliable separation. In addition, constipation can quickly arise.

EP 0 135 355 A2 proposes to solve the problem, from a flat Trout gutter parallel to each other some guide webs of rectangular cross-section and flat top edge, which is then over a crossbar lead away. While small particles from the guide webs largely walk undisturbed in the trough and just fall through the gap here, are largely longitudinally aligned elongated particles between the Aligned guide webs and can in this way the gap bridge and continue on the other side of the trough. Rather transverse-oriented elongated particles are from the guide webs upwards and in this way bridged over the gap and thus arrive also on the other side of the Trogrinne. The device is like that exclusively meant to be a minority of elongated particles of solid given diameter and uniform type of shorter particles likewise of a fixed type. For different composite materials, this arrangement is neither thought nor suitable, as immediately fix parts between the guide webs and would jam and therefore after a short time a total failure of Arrangement occurs.

The US-PS 41 43 769 proposes a screening device for screening Screws and other reusable small parts from the scrap abandoned railway lines. The scrap particles are on a Dried gutter with parallel spaced rods. The Screws fall into the gap, the irregular slightly larger parts run on the poles and so can one at the end of the rods bridge the gap provided, into which the screws fall. A Alignment is not intended, cables and similarly shaped parts would just get stuck and clog the barrel, as well as non-metallic ones sorting particles. Unfavorably arranged large particles can nevertheless be removed with the small parts.

The object of the invention is therefore to provide a device for aligning and Sorting of elongated particles of different size extent with to propose a trough-shaped vibrating conveyor, with which also material different order of magnitude can be sorted.

This object is achieved in a generic device characterized that the cross-section of the gutter profile bottoms. a substantially upwards has opened semicircular arc shape, and that the cross section of the dividers a. to the gutter profile floor opposite curved semicircular arc shape Has.

The device will be randomly oriented particles, including those with elongated size expansion supplied. The trained in conveying direction Channel profiles at the bottom of the Trognnne the vibrating conveyor lead to an alignment this elongated particle with its longitudinal axis in the conveying direction. there the elongated particles, such as cables, pins or rods, on the longitudinal profiles during Fördems surprisingly relatively fast out. In contrast, larger-area particles bridge several channel profiles and thus are not aligned.

The elongated particles are thus after a certain conveying distance with their Longitudinal extent issued parallel to the conveying direction, thus further processing This elongated objects is greatly simplified since now the aligned elongated parts predictably behave and automated are manageable. According to the invention is now a Predictable separation possible. Either the elongated parts always treated by their predictable arrangement as large-scale parts, since they can bridge a gap, or they will all be like Small-scale elements are treated as they are with these before the end of the Rinnenförderers fall through the there no longer existing gutter bottoms.

The preferred of the two steps depends on what follows with the in this way divided into two fractions Sortiergut should happen. It is certainly possible in this way, a fraction of small fragments to obtain, which contain neither elongated nor large-scale pieces, and it is also possible to obtain a fraction of only large parts, which contains no pins or small parts anymore.

The device for discharging elongated particles at the downstream End of the Rüttelförderers can preferably be formed by either a height gradation and a horizontal distance or gap to a second funding is provided and / or that the channel profile bottoms on downstream end of the vibrating conveyor in the conveying direction before the dividing webs end up.

If at the downstream end of the vibrating conveyor a height gradation and a horizontal distance or gap provided to a second conveyor is such a vibrating conveyor for sorting particles of different Magnitude can be used. By the vibration of the vibrating conveyor is randomly supplied material of different sizes, as for example contained in collecting containers, aligned along the vibrating conveyor, where small sized particles slip into one of the channels and there be guided in the "wave trough" in the conveying direction. Elongated and stick-shaped particles are, as explained above, by a rotational movement about a transverse axis align the particle during the promotion and into one of the gutters slip and also in the "wave trough" are led. In contrast, lie large-area materials, such as plate residues, paper o. The like. On top of the Dividers on and bridge several channels. Experienced these particles no alignment. Due to the height gradation with a horizontal gap too A second conveying means, the small particles that are in the troughs be transported, sorted out, as these are the second funding do not reach and fall through the gap. The large-area particles bridge as well as the aligned, elongated particles the separation gap and are carried away with the second funding.

If below the gap or gap a collection container or another Funding is provided, the rejected particles for further processing collected or carried away.

The fact that the gutter profile bottoms at the downstream end of the Vibratory conveyor in the conveying direction in front of the dividers can also end the elongated particles transported in the trough are sorted out. In this embodiment, the elongated transported in the trough Particles as well as the small particles not the second funding achieve what only the large particles on the dividing webs bridging, reach the second conveyor.

Since the cross-section of the gutter profile bottoms opens essentially upwards Semicircular arch shape has a steady and uniform rotational movement to the desired orientation of the elongated particles with activated vibration drive caused by the vibrating conveyor.

Between the gutter profiles dividers are formed on which larger format, do not rest elongated particles and without special orientation be transported. The cross section of the dividers has a semi-circular arch shape curved in the opposite direction to the channel profile bottom. The conveying plane of the vibrating conveyor is in Essentially formed "corrugated sheet". Such a profiled ground is easy to produce and has an increased intrinsic stability.

With the present invention is a technically simple and reliable Alignment of elongated particles in a flow achieved, which then a predictable, defined behavior as opposed to disorderly elongated Particles is achieved.

In particular in connection with the provision of a horizontal distance to a second conveying means, to be referred to as gap separation for short, becomes a reliable sorting of the aligned, elongated particles allows.

Hereinafter, two embodiments of the invention with reference to the Drawing described in detail.

Figur 1

in schematisierter räumlicher Ansicht im Ausschnitt das Ende eines erfindungsgemäßen Rüttelförderers,

Figur 2

in schematisierter räumlicher Ansicht eine Sortiervorrichtung mit einem Rüttelförderer gemäß Figur 1 und

Figur 3

ein alternatives Ausführungsbeispiel eines Förderers in schematisierter räumlicher Ansicht im Ausschnitt.

It shows:

FIG. 1

in a schematic spatial view in section the end of a vibrating conveyor according to the invention,

FIG. 2

in a schematic spatial view of a sorting device with a vibrating conveyor according to Figure 1 and

FIG. 3

an alternative embodiment of a conveyor in a schematic spatial view in the neck.

In Figure 1 , the end of a vibrating conveyor 1 according to the invention is shown in a schematic spatial view in the neck. The vibrating conveyor 1 has a U or trough shape with two higher side walls 11, 11 and a bottom 12 connecting the side walls 11, 11.

In the illustrated embodiment, the top of the bottom 12 has six Gutter profiles 13 on. Between the gutter profiles dividers 14 are provided. The channel profiles 13 and the separating webs 14 are parallel to the conveying direction X aligned.

The gutter profile 13 and the divider 14 have in cross-section substantially Semicircular shape with substantially the same radius but opposite Curvature direction, so that a wave-shaped surface of the bottom 12th results.

FIG. 2 shows , in a schematic spatial view, a sorting arrangement with a vibrating conveyor according to the exemplary embodiment explained with reference to FIG. The downstream end 15 of the vibrating conveyor 1 is arranged above a conveying plane 21 of a second conveying means 2. In addition to the height gradation, a horizontal gap is also formed between the downstream end 15 of the vibrating conveyor 1 and the upstream end 22 of the second conveying means 2 designed as a conveyor belt. This geometric arrangement forms a gap separating cut for sorting the supplied particles.

Below the gap is another conveyor 3, which also serves as a conveyor belt is formed, arranged. The further conveyor belt 3 is arranged the conveying direction Y is substantially perpendicular to the conveying direction X of the Main flow rate is so that falling through the gap, sorted out Particles are transported laterally for further processing or collection.

The following is the operation of this alignment and sorting device described.

The particles P to be aligned and sorted differ in size including elongated particles become random and disordered fed to the vibrating conveyor 1. During the transport of the supplied particles on the vibrating conveyor 1, the particles slip with small size expansion in the troughs of the gutter profiles 13. The elongated particles are in the Transport process rotated about a transverse axis and also fall into a trough the gutter profiles 13. Large-scale particles, however, are over-bridging on the dividers 14 and are transported on this resting.

At the downstream end 15 of the shaker conveyor 1, the particles of smaller magnitude P ₁ fall through the gap to the other conveyor belt 3. The supported on the partitions large particles P ₂ bridge at the downstream end 15 of the shaker conveyor 1 as soon as their center of gravity reaches the edge.

Due to their large extent, however, these particles bridge the Gap and the height gradation, so that they reach the second conveyor 2 and be carried away by this.

The elongated particles aligned in the channel profiles 13 tip over on the downstream end 15 of the vibrating conveyor 1 also only when exceeded the center of gravity of this edge, whereby the elongated particles also the reach second funding 2. Only very short elongated particles behave like small particles and fall through the gap on the other Funding 3.

FIG. 3 shows an embodiment in a schematic spatial view in section, in which the downstream end 15 of the vibrating conveyor 1 is designed so that the dividing webs 14 or "peaks" of the bottom 12 of the vibrating conveyor 1 are made longer than the channel bottoms of the channel profiles 13 The channel profiles thus have a reset downstream end 16.

If such a trained downstream end 15, 16 in a device used according to Figure 2, the elongated particles that are in the trough the gutter profile 13 are located, of the resting on the dividing webs 14 large particles are separated. The in the gutter profiles 13th already transported elongated particles overturn already at the reset downstream end 16 with its center of gravity so that this Particles the height-graded and horizontally spaced downstream conveyor belt 2 can not reach and arranged in a below the gap area Collecting container or fall on another conveyor belt 3. The Large-area particles are separated by the separating webs which continue in the conveying direction held. Only when the center of gravity is exceeded on the downstream side At the end of these partitions 14, the large-area particles tip over, then the height graduation and the horizontal gap bridging on the second conveyor belt 2 arrive and be transported away.

It is also possible, parts of the Trogrinne without such a gutter profile, So for example, equip with a flat floor to a uniform Distributing the elongated particles to sort to sort P on the trough, before then aligning and sorting in the section with the aligned channel profiles takes place.

Also a combination of such a design with gutter sections according to Figure 3 are conceivable.

LIST OF REFERENCE NUMBERS

1

Rattle conveyor, Trogrinne

11

Side wall

12

ground

13

Gutter profile (floors)

14

divider

15

downstream end

16

downstream end of the gutter profile

2

second conveyor, conveyor belt

21

conveying plane

22

upstream end

3

further conveyor, conveyor belt

P

particle

P, 1

Particles of smaller size

P ₂

Particles of larger size

X

conveying direction

Y

conveying direction

Claims (4)

1. Device for orienting and sorting particles (P) of different dimensional extent with a trough-type shaker conveyor (1),

   in which the base (12) of the trough channel of the shaker conveyor (1) has a trough section (13) oriented in transport direction (X),

   in which separating webs (14) are configured between adjoining trough sections (13),

   in which at the downstream flow end (15) of the shaker conveyor (1) a means is provided for separating out elongated particles (P) alone or with another size fraction of particles from the product flow,

   in which a second conveyor means (2) is provided at the downstream flow end (15) of the shaker conveyor,

   characterised in that
   the cross-section of the trough section bases (13) has a semicircular shape, which is essentially open in upward direction, and
   that the cross-section of the separating webs (14) has a semicircular shape curved in the opposite direction to the trough section base (13).
2. Device according to Claim 1, characterised in that at the downstream flow end (15) of the shaker conveyor (1) a level gradation and a horizontal space or gap from the second conveyor means (2) is provided.
3. Device according to Claim 1 or 2, characterised in that the trough section bases (13) terminate at the downstream flow end (15, 16) of the shaker conveyor (1) in front of the separating webs (14) in transport direction (X).
4. Device according to one of the preceding claims, characterised in that a collection container or a further conveyor means (3) is provided below the space or gap.

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