NL2012496B1 - Sorting device for sorting by weight shredded waste, in particular plastic waste. - Google Patents

Description

Sorting device for sorting by weight shredded waste, in particular plastic waste DESCRIPTION:

FIELD OF THE INVENTION

The invention relates to a sorting device for sorting by weight shredded waste, in particular plastic waste, comprising: at least one conveyor belt for transporting the waste chips along a path in a conveying direction; at least two blowing nozzles that are present at a mutual distance next to the conveyor belt for blowing air jets at an angle with the conveying direction on the longitudinal waste cuttings; and at least two collection trays present below and / or next to the blow nozzles and the conveyor belt for collecting waste cuttings blown off the conveyor belt, one of the collection trays being present below and / or next to each blow nozzle.

State of the art

Such a sorting device is generally known. The known sorting device has one conveyor belt with two adjacent blowing nozzles. The blow nozzles each blow chips with a specific specific gravity from the conveyor belt into the collection trays. The remaining shreds are further transported and collected in a further collection bin at the end of the conveyor belt. With this known sorting device, the waste cuttings can thus be separated into three different groups.

Summary of the invention

An object of the invention is to provide a sorting device of the type described in the preamble with which waste cuttings can be sorted faster than with the known sorting device and which is moreover relatively compact. To this end, the sorting device according to the invention is characterized in that it further comprises at least one further conveyor belt and at least two further blow nozzles which are present at a mutual distance next to the further conveyor belt, wherein the further conveyor belt is at a different angle of inclination in longitudinal direction than the conveyor belt . By arranging the conveyor belts at different levels, a compact sorting device can be obtained in which the blowing means present next to one of the conveyor belts do not disrupt the flow of waste chips on the other conveyor belt.

Preferably, the collecting trays are also present under and / or in addition to the further blowing nozzles, wherein one of the collecting trays is also present again under and / or next to each further blowing nozzle.

An embodiment of the sorting device according to the invention is characterized in that, seen in the conveying direction, the further blow nozzles are present offset with respect to the blow nozzles and the collecting trays are present obliquely with respect to the conveying direction beneath the conveyor belts. Due to the conveying speed, the scraps blown off the conveyor belt do not fall in the blowing direction but in a direction between the blowing direction and the conveying direction of the conveyor belt. It is therefore advantageous to place the collection trays obliquely and diagonally under the conveyor belts in the same direction as those in which the waste chips from the conveyor belt fall. As a result, it is also necessary to arrange the blow nozzles next to a conveyor belt staggered with respect to the blow nozzles next to another conveyor belt.

A further embodiment of the sorting device according to the invention is characterized in that the sorting device comprises at least three conveyor belts which are present in the longitudinal direction at different inclination angles relative to each other, wherein from one of the outer conveyor belts to the other outer conveyor belt the inclination angle including the conveyor belt state increases. As a result, it is virtually impossible that the blowing means in addition to one of the conveyor belts can unintentionally influence the waste stream on another conveyor belt.

A still further embodiment of the sorting device according to the invention is characterized in that the sorting device comprises at least four blow nozzles and four further blow nozzles, the blow nozzles and further blow nozzles being present in groups of at least two, the mutual distances between the groups being greater than the mutual distances of the blow nozzles and further blow nozzles within a group. The blow nozzles of a group here preferably blow equally hard. Placing two identical blow nozzles directly next to each other reduces the chance that scraps of waste that need to be blown out of the waste stream will actually be blown out of the waste stream.

Brief description of the drawings

The invention will be explained in more detail below with reference to an exemplary embodiment of the sorting device according to the invention shown in the drawings. Hereby shows:

Figure 1 shows an embodiment of the sorting device in perspective;

Figure 2 is a side view of a detail of the sorting device at the location of the blow nozzles;

Figure 3 shows a detail of the sorting device at the location of one group of blow nozzles; and

Figure 4 shows a detail of the sorting device in perspective.

Detailed description of the drawings

Figure 1 shows an embodiment of the sorting device in perspective. The sorting device 1 has an input and distribution unit 2 into which the waste cuttings are introduced and distributed over conveyor belts. These waste shreds come from a shredder that makes shreds from plastic waste products. There are five conveyor belts 3 that transport the waste chips along a route in a transport direction. In addition to each conveyor belt, a number of groups 5 of two blow nozzles 7 are present. These blow nozzles are attached to a rod frame present above the conveyor belts.

Under the blow nozzles and the conveyor belts there are collection trays 9 for collecting scraps of waste blown off the conveyor belt by the blow nozzles. Each group of blowing nozzles following in the conveying direction next to a conveyor belt blows more vigorously than the blowing nozzles present upstream, so that first the scraps of waste with the smallest specific weight will be blown away and subsequently by the following groups of mesh nozzles waste scraps with a greater specific weight.

The conveyor belts 3 are arranged at different inclination angles 11, wherein the inclination angle at which the conveyor belt stands increases from one of the outer conveyor belts to the other outer conveyor belt. As a result, in addition to one of the blowers present on the conveyor belts, the sorting of the waste chips on another conveyor belt cannot be influenced. Moreover, as a result, the waste bins can be placed under an angle of inclination 12A under the conveyor belts, so that the waste chips can be better collected.

Each collection tray 9 is present under groups of blow nozzles, the blow nozzles of which blow with the same force and thus blow off waste cuttings with a specific density or a lower specific mass from the conveyor belts. These blow nozzles are located next to the various conveyor belts.

Figure 2 shows a side view of a detail of the sorting device at the location of the blow nozzles. The mutual distances D1 between the groups 5 is greater than the mutual distances D2 of the blow nozzles 7 within a group. The collection trays 9 are present obliquely at an angle 12B with respect to the direction of transport under the conveyor belts.

Figure 3 shows a detail of the sorting device at the location of one group 5 of blow nozzles 7. The blow nozzles blow air jets 13 in a direction at an angle 15 with the conveying direction 17 on the longitudinal waste cuttings.

Figure 4 shows a detail of the sorting device in perspective. Viewed in the direction of transport 17, the blow nozzles 7B are disposed adjacent conveyor belt 3B over a distance X with respect to corresponding blow nozzles 7 adjacent conveyor belt 3. Corresponding blow nozzles here are understood to mean blow nozzles that blow with the same force.

Although in the foregoing the invention has been elucidated with reference to the drawings, it should be noted that the invention is by no means limited to the embodiment shown in the drawings. The invention also extends to all embodiments deviating from the embodiment shown in the drawings within the scope defined by the claims.

Claims (5)

A sorting device for sorting by weight shredded waste, in particular plastic waste, comprising: at least one conveyor belt for transporting the waste chips along a path in a conveying direction; at least two blowing nozzles that are present at a mutual distance next to the conveyor belt for blowing air jets at an angle with the conveying direction on the longitudinal waste cuttings; and at least two collecting trays present under and / or next to the blow nozzles and the conveyor belt for collecting waste cuttings blown off the conveyor belt, wherein one of the collecting trays is present under and / or next to each blowing mouth, characterized in that the sorting device further comprises at least one further conveyor belt, as well as at least two further blow nozzles which are present at a mutual distance next to the further conveyor belt, wherein the further conveyor belt is at a different angle of inclination than the conveyor belt in the longitudinal direction. Sorting device according to claim 1, characterized in that the collecting trays are also present under and / or next to the further blowing nozzles, wherein one of the collecting trays is also present again under and / or next to each further blowing mouth. 3. Sorting device as claimed in claim 2, characterized in that, seen in the direction of transport, the further blow nozzles are present staggered with respect to the blow nozzles and the collecting trays are present obliquely with respect to the conveying direction under the conveyor belts. Sorting device as claimed in claim 1, 2 or 3, characterized in that the sorting device comprises at least three conveyor belts which are present in the longitudinal direction at different inclination angles relative to each other, wherein the inclination angle from one of the outer conveyor belts to the other outer conveyor belt under which the conveyor belt stands. A sorting device according to any one of the preceding claims, characterized in that the sorting device comprises at least four blow nozzles and four further blow nozzles, the blow nozzles and further blow nozzles being present in groups of at least two, the mutual distances between the groups being greater than the mutual distances of the blow nozzles and further blow nozzles within a group.