DE9413671U1 - Sorting system for color sorting of glass, preferably waste glass - Google Patents

Description

ZMB Maschinenbau GmbH
Geislinger Strasse 60
D 89150 Laichingen

89073 Ulm, 18.08.94 File G/9481 k/sr

Sorting system for color sorting of glass, preferably waste glass.

It is known that before processing glass, especially waste glass, which includes bottles, glass containers and similar waste glass, it must be sorted by color because when melting down such glass, the toughness of the molten glass prevents glass parts of different colors from mixing. Before melting down glasses of different colors, color sorting is therefore absolutely necessary. As a rule, the colors used are white, green and brown, which are the most common colors for glass mass articles.

Sorting systems that carry out color sorting of glass objects of a certain configuration are already known on a large scale. However, the economic efficiency of these systems leaves much to be desired; their further disadvantage is the large capital investment required.

The invention is based on the object of specifying a sorting system for color sorting of glass, preferably waste glass, e.g. bottles, glass containers and similar waste glass, which does not have the disadvantages of the large-scale systems mentioned and can therefore also be used by smaller companies.

This sorting system according to the invention consists of a conveyor line for the glass to be sorted, a feed chute arranged at the entrance to this conveyor line with an inclination of 15 to 45°, preferably 30°, relative to the horizontal, an oscillating rail arrangement between the feed chute and the conveyor line with an inclination of approximately 15° and a measuring and control arrangement preferably arranged in the first third of the conveyor line, which detects the fed glass according to the glass colors white, green and brown as well as non-transparency and converts the measurement results obtained into control signals for controlling three ejection devices for white, green and brown glass parts provided on the side of the conveyor line, while parts not detected by the measuring arrangement because they are non-transparent are discharged at the outlet of the conveyor line.

The invention is therefore a fully automatic sorting system which enables fragments or entire hollow glass bodies with a grain size of, for example, 60 mm to be separated into white glass, green glass and brown glass as well as into other objects.

Compared to conventional manual or cullet sorting, whole-glass sorting is of great importance. This new system offers the advantages of high economic efficiency, high throughput, low investment in equipment, excellent sorting quality, low energy costs, a humane workplace, no color re-sorting, no glass loss and overall sorting in a single, continuous process.

The sorting system according to the invention can be installed directly downstream of a screening system, a material buffer or storage bunkers with already separated small fractions. 20

Further developments of the sorting system according to the invention consist of the special design of the individual units of the system, which will be discussed below.

The feed chute consists, for example, of rods running in the direction of the conveyor line, the distances between which are adapted to the dimensions of the usual waste glass parts, for example the bottle diameter. In this way, the waste glass parts are already aligned to a certain extent on the feed chute, especially if a vibrating drive is provided below the feed chute.

The rails of the oscillating rail arrangement are made of profiled plastic mats, which have an oscillating drive acting in the conveying direction.

A special design of the sorting system is that the conveyor line consists of two conveyor belts running parallel to each other, each with three ejection stations arranged on its outer side and that a dividing wedge is provided on the feed chute to divide the material flow between the two conveyor belts.

An embodiment of the sorting system according to the invention is shown in the drawing.

The core of this system consists of the conveyor line 3, represented by the two conveyor belts 3a and 3b running parallel to one another. A feed chute 1 and a vibrating rail arrangement 2 are connected upstream of the entrance to this conveyor line. The feed chute 1 is preferably inclined at an angle of 15 to 45°, preferably 30°, to the horizontal. Below this feed chute 1 there is a vibrating drive (not shown in the drawing) which continuously causes the chute to vibrate. The feed chute 1 also has a dividing wedge 14 which divides the fed waste glass stream between the two conveyor belts 3a and 3b. First, however, the waste glass parts reach a vibrating rail arrangement 2, which has two profiled plastic mats running next to each other and which, as a result of this profiling, causes the waste glass parts taken from the feed chute 1 to be aligned in the direction of the conveyor belts 3a and 3b. In addition,

This oscillating rail arrangement, which has an oscillating drive acting in the conveying direction, also not shown in the drawing, causes the waste glass parts taken from the feed chute to be transported in the direction of the conveyor belts 3a and 3b. The oscillating rail arrangement is also inclined relative to the conveyor belts, at an angle of about 15°.' The conveyor belts 3a and 3b are now driven at a slightly higher speed than the oscillating drive of the oscillating rail arrangement 2, so that objects lying directly behind one another are pulled apart when they arrive on the conveyor belts 3a and 3b. This is necessary because the individual objects arriving on the conveyor belts 3a and 3b have to pass through a subsequent measuring and control arrangement 4, in which the color sorting is carried out in a manner known per se. The measurement data obtained are converted into control signals, which are then fed to the ejection devices of the ejection station control, which are only shown in the drawing by arrows 15, 16 and 0. These ejection devices are pneumatically operated devices that must react extremely quickly so that the color of the supplied glass is sorted without errors. The ejected glass then passes via channels 5, 6, 7 and 5a, 6a and 7a to the on-site conveyor systems 10, 11, 12 and 10a, 11a and 12a and can then be further processed as single-colored glass.

Unidentified objects such as ceramics, earthenware, porcelain, metals and glass that is outside the target colours are sent to the outlet 8 of the conveyor line

and discharged there as mixed glass. The corresponding on-site conveyor system for these items is marked 13 in the drawing.

Finally, it should be noted that the sorting system according to the invention is functional with a single conveyor belt 3a or 3b and has the advantages mentioned above. A system as shown in the drawing, which has two conveyor belts 3a and 3b, has the advantage that its capacity is twice as high without practically requiring a larger space.

Claims (6)

Protection claims: 1. Sorting system for color sorting of glass, preferably waste glass, e.g. B. of bottles, glass containers and similar waste glass, consisting of a conveyor line (3) for the glass to be sorted, a feed chute (1) arranged at the entrance to this conveyor line (3) with an inclination to the horizontal of 15 to 45°, preferably 30°, an oscillating rail arrangement (2) between the feed chute (1) and the conveyor line (3) with an inclination of about 15° and a measuring and control arrangement (4) arranged preferably in the first third of the conveyor line (3), which detects the fed glass according to the glass colors white, green and brown as well as non-transparency and converts the measurement results obtained therefrom into control signals for controlling three ejection devices (15, 16, 17) for white, green and brown glass parts provided on the side of the conveyor line (3), while parts not detected by the measuring arrangement (4) because they are not transparent are discharged at the outlet (8) of the Conveyor line (3). 2. Sorting system according to claim 1, characterized in that the feed chute (1) consists of rods (la) running in the direction of the conveyor line (3), which are adapted to the dimensions of usual waste glass parts in terms of their mutual spacing. 3. Sorting system according to claim 1 and 2, characterized in that an oscillating drive for the feed chute (1) is arranged below this chute. 4. Sorting system according to claims 1 to 3, characterized in that the rails of the oscillating rail arrangement (2) consist of profiled plastic mats which have an oscillating drive acting in the conveying direction. 5. Sorting system according to claims 1 to 3, characterized in that the feed chute (1) is preceded by a screening system (9), a material buffer or a storage bunker for the purpose of separating small fractions. 6. Sorting system according to claims 1 to 5, characterized in that the conveyor line (3) consists of two conveyor belts (3a, 3b) running parallel to one another, each with three ejection devices arranged on its outer sides, and that a dividing wedge (14) is provided on the feed chute (2) for dividing the material flow between the two conveyor belts (3a, 3b).