NL1013967C2 - Sampling system for flow of natural products such as root vegetables or fruit has flow breakers that have wave-shaped profile belts which channel objects into regularly spaced rows - Google Patents

Abstract

The incoming objects (6) are fed to the machine by the input conveyor (3). From the end of the input conveyor the objects fall onto the intermediate conveyor (4). Above the intermediate conveyor is an assembly of flow breakers (5). The flow breakers have wave-shaped profile belts (16) which channel the objects into regularly spaced rows. Transverse conveyor belts (8) sample the rows and carry the samples to recesses (13) on the output conveyor (12).

Description

COMPOSITION AND METHOD FOR SEPARATING COPIES FROM A STREAM

The present invention relates to a method and an assembly for separating a bulk stream of particulate material, such as bulbous and tuberous plants, fruit and fruits, into individual copies, comprising a supply belt; a row-forming device connecting to the supply belt; discharge means aligned on the rows to be formed by the row-forming device for discharging individual specimens from the rows.

Such an assembly is described in 10 WO99 / 24333 and serves to supply the specimens separated with it from the stream to, for instance, a sorting machine, which can only function adequately if it is supplied with the individual specimens. Such a sorting machine then sorts e.g. 15 by weight, size, etc.

In the assembly described in WO 99/24333, the row-forming means are configured as short baffles that extend in the direction of the flow. The row-forming means are placed at the end of a supply belt. On the side of the row-forming means - the partitions - opposite the supply belt, a roller 7 is arranged, over which the bulk flow is displaced to the discharge means.

The object of the present invention is to provide a new configuration of an assembly which differs from the known technique according to the non-prepublished international patent application WO 99/24333, in that the row-forming device has a conveyor for the flow of current and 30 comprises at least two circuit breakers which form obstacles in the flow to be conveyed on the conveyor, around which the flow divides into rows, and that the circuit breakers are elongated and longitudinally angled with respect to the direction of travel ^ ng of the conveyor are provided.

In addition to providing: a new configuration, the present invention has made significant, technical and economical progress with regard to, in particular, the following aspects.

This ensures that (even if various sizes of the specimens are present in the bulk flow of particulate material, they are arranged in a row one after the other in the desired manner. By the movement of the conveyor under the circuit breakers 15, the specimens are successively forced along the obliquely placed circuit breakers In particular in the case of a flow of particulate material, such as bulbous and tuberous plants with roots and / or other such tangled protuberances, the new configuration according to the present invention is favorable. relative to the feed-through or conveying direction of the conveyor, a rolling movement of the specimens of particulate material for the rows to be formed ensures that such roots and / or other tangled protuberances are reliably and more particularly without damage to those roots and / or bulges are disentangled.

The circuit breakers may include belts wrapped in a closed loop around buses standing on the conveying surface of the conveyor. In this way a simple configuration is achieved. When the τΊ i buses are rotatable and connected to a drive, the row-arranging effect of the row-forming device can be further enhanced by the speed at which the belts are driven around the busse / i from that , with which the transporter moves the copies under the circuit breakers. A further improvement of the row-forming effect is obtained when a surface of corrugated profile corresponding to the direction of flow is provided on the surface of the belt.

Preferably, the circuit breakers are spaced at a distance corresponding to the size of the specimens. Hereby it is prevented that copies can end up next to each other between the circuit breakers and the row-forming effect of the row-forming device is thus improved.

These and other features and advantages of the present invention will be further elucidated with reference to the figure description below, which is set out in conjunction with the accompanying figure.

15 shows an assembly according to the present invention.

The assembly comprises a row-forming device 1 and discharge means designed as a sliding device 2, wherein a conveyor belt 3 is used as a supply belt. The row-forming device 1 itself also comprises a conveyor belt 4 with four breakers 5 on it, which are positioned on the top surface of the conveyor belt 4. The circuit breakers 5 are suspended from a construction (not shown in more detail), so that the circuit breakers 5 hang stationary on or just above the top surface of the conveyor belt 4.

A bulk stream of particulate material is supplied over the conveyor belt 3 to the row-forming device 1, which bulk stream consists of separate copies. In the application example shown here, a bulbous plant, lily bulbs 6, is shown. The lily bulbs 6 fed over the conveyor belt 3 are deposited on the conveyor belt 4 of the row-forming device 1. This conveyor belt 4 is driven by means of drive means (not shown), through which the lily bulbs 6 are fed to the circuit breakers 5. The circuit breakers 5 are elongated and positioned parallel to each other at a distance corresponding to the size of the lily bulbs 6. The lily bulbs 6 are fed between and along the circuit breakers 5 due to the driven movement of the conveyor belt 4 and are thus deposited in rows on a conveyor belt 7, which conveyor belt 7 forms the connection between the row-forming device 1 and the sliding device 2.

The sliding device 2 consists of a number of sliding belts 6 corresponding to the number of rows formed by the row-forming device 1 and which extend from the side of the conveyor belt 7. The sliding belts 8 each extend so far over the top surface of the conveyor belt 7 that they are each positioned to slide the lily bulbs 6 out of one of the formed rows of the conveyor belt 7.

For this purpose the sliding belts 8 are designed as; tires 10 wrapped around driven pulleys 9, which are on the outside thereof; Provided with plate constructions forming compartments: 11. Each plate construction forming a compartment is independent of the neighboring plate constructions 11, such that the bend around the reversing sleeves 9 can be traversed during rotation of the belts 10 without any risk of damage to the belts 10.

With each of the sliding belts 8, therefore, the lily bulbs 6 are slid from one of the rows of the conveyor belt 7 formed by the row-forming device 1 when the belts 10 are rotated. A discharge belt 12 is arranged on the side of the conveyor belt 7 under the sliding device 2. The discharge belt 12 runs synchronously with the belts 10 of the sliding device, so that lily bulbs 6 received in the compartments formed by the plate constructions 11 each fall off in the pits 13 formed in the discharge belt 12 from the conveyor belt 7. The discharge belt 12, for example, leads to a sorting machine, where the lily bulbs 6 are sorted by size, weight or such a criterion.

In the embodiment shown here, the circuit breakers 5 are elongated transfer belts 14, which are alternating

Li 0 1 39 67 5 upright driven buses 15 have been driven. The transfer belts 14 are driven via the bushes 15 to rotate around the bushes 15.

The feed-through belts 14 are provided on the outside 5 with a corrugated profile, which is preferably made of pliable material. The profile is indicated with reference number 16. The transfer belts 14 of the circuit breakers 5 in the row-forming device 1 rotate in the same direction around the bushes 15, so that the profile 10 on the side of the part returning to the conveyor belt 3 in a row. loop struck feeder belts 14 along the counter-moving part of the feeder belt 14 of the immediately adjacent circuit breaker 5. The lily bulbs 6 are received in the valleys of the wave-15 shaped section 16, with the above described configuration of the circuit breakers 5 and direction of rotation of the feed-through belts 14 with profiles 16 attached thereto ensures that in each valley of the wave-shaped profile 16 only one lily bulb 6 is accommodated. In the unlikely event that more than one lily bulb ends up in a valley of the wave-shaped profile 16 at the entrance side of the circuit breakers 5, the tops of the wave-shaped profile 16 returning to the conveyor belt 3 will ensure that one of these two lily bulbs will be pushed to a valley behind.

Preferably, the transfer belts 14 of the circuit breakers 5 run synchronously with the conveyor belt 4, in particular when sensitive crops or products are treated. This prevents these crops or products from being trapped between the corrugated profile 16 and the conveyor belt 4.

The circuit breakers 5 are elongated and extend at an angle with respect to the direction of rotation of the conveyor belt 4, ie an angle with respect to the feed direction of the lily bulbs 6 over the conveyor belt 4. This makes the in the valleys of the wave-shaped profile 16 Lily bulbs received from a circuit breaker 5 are displaced somewhat laterally over the conveyor belt 4 1 0 139 67 6 during transport in the direction of the sliding device 2. This also improves row formation of the Lily bulbs 6, because it rolls over the conveyor belt 4 under the influence of the written 5 lateral displacement due to the angle! of the circuit breakers 5 with respect to the direction of travel of the conveyor belt 4.

The invention is not to be regarded as limited to the above-described embodiment.

Thus, in a considerably simplified embodiment of the present invention, it is possible to simply shape the circuit breakers as buses, which are placed on or just above the surface of the conveyor belt 4 at mutual distances, accurately corresponding to the dimensions of the lily bulbs 6. Furthermore, it is possible for the circuit breakers to be designed as conveyor belts, as in the example described above, but without the wave-shaped profile 16, wherein again the distances between the circuit breakers 5 accurately correspond to the dimensions of the lily bulbs, or possibly even be adjustable.

The discharge means can also be designed in many different ways, such as with grippers, diabolos and the like. It is thus also possible that the conveyor belt 12 is mounted behind the conveyor belt 7 without the intervention of the sliding belts 8 or that the belts 8 are not perpendicular to the conveyor belt! to move. The distances between the pits 13 can herein be chosen in accordance with the distances between the rows of rows formed by the row-forming device 1. The discharge belt 12 is hereby an extension of the conveyor belt 7. In fact, in this situation, the conveyor belt 7 is omitted altogether, with the discharge belt 12 directly on the exit side of the circuit breakers at the conveyor 4 is mounted.

From the foregoing, it appears that many alternative embodiments within the scope of the present invention will be readily apparent to those of skill in the art after embodying the present invention. All of these embodiments should therefore be considered to be within the scope defined by the appended claims.

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Claims (7)

An assembly for separating a stream of particulate material, such as bulbous and tuberous plants, fruit and vegetables, into separate copies, comprising: - a supply belt; I j 5. a row-forming device connecting to the supply belt; - aligned discharge means for wiping individual specimens from the rows on the rows to be formed by the row-forming device, characterized in that the row-forming device comprises a transport for passage of the current and at least two circuit breakers, which one! form obstacles in the flow to be conveyed on the conveyor, around which the flow divides into rows, and that the circuit breakers are elongated and arranged longitudinally at an angle to the direction of travel of the conveyor. 2. Assembly according to claim 1, wherein the circuit breakers comprise belts which are wrapped in a closed loop around bushes standing on the conveying surface of the conveyor. Assembly according to claim 2, wherein the bushes are rotatable and connected to a drive. Assembly as claimed in claim 2 or 3, wherein on the surface of the belt there is a corrugated profile corresponding to the direction of travel of the conveyor. Assembly according to any one of claims 1 to 4, wherein the circuit breakers are spaced at a distance corresponding to the size of the specimens. 6. A method for separating a stream of corpuspular material, such as> 1 0 1 3 9 GT agricultural products such as bulbous and tuberous crops, fruit and fruits, into separate copies, comprising of: - separating the stream into at least one row-shaped partial stream; and 5. separating copies from the partial flow, characterized by transferring the copies forming the rows obliquely to the conveying device of a conveyor during row formation. 7. A method according to claim 6, further comprising separating the specimens in the row-shaped partial stream to be formed during separation. i 0 13967