DE1482427C - Steigron windsifter with zigzag channel - Google Patents

Description

The invention relates to a riser pipe wind sifter, specifically to a sifter with loading per se. knew parallel zigzag channels, the sloping walls of which form common boundary walls and the foot ends of which lead into a common air and material supply space. It concerns the supply of the goods and the sifting air.

For the sifting of bulk goods, considerable sifter cross-sections are necessary to handle the large quantities to be able to enforce. With a normal design of the riser pipe, this would result in tower-high wind sifters lead, which is of course economically unsustainable. To remedy this, it was suggested that the necessary A sifter cross-section can be achieved by arranging several individual pipes in parallel. The overall height is then for purely geometric reasons - with the root of the number of Single pipes back. _.-,.

There has already been such an arrangement of parallel Suggested single pipes, which are fed to the goods to be sifted between head and foot will. The disadvantage here is that each individual tube has a device for dosing the material to be separated and for Air exclusion of the material supply required. These organs can be almost as expensive as the sight tube itself and therefore increase the cost of the sifter.

Furthermore, a riser pipe separator with a zigzag shape was known from the USA patent specification 2 328 568, to which the item to be sifted is fed together with the sifting air from its foot. The Fine material is withdrawn from this sifter with the sifting air at the top, while that which is not accepted by the sifter Good, i.e. a mixture of coarse and feed material, falls down and there in a second Sifter is re-sighted. The obvious parallel connection of several such arrangements has the same disadvantages as the first-mentioned previously proposed arrangement. Furthermore With it, as with the well-known single-pipe ascending sifter of this type, it is no more stable Operation possible.

Parallel zigzag channels whose sloping walls form common boundary walls and whose foot ends open into a common air and Gutzuführraum, are by the German patent 358 014 became known, and not for a riser air separator in which a grain mixture in two fractions (fine and coarse material) is separated, but for a dust separator that does the job has to separate the dust entrained in a gas as completely as possible.

The aim of the invention is, for a riser pipe windsifter with parallel zigzag channels known per se, whose sloping walls form common boundary walls and their foot ends in a common one Air and. Gutzuführraum open, an advantageous supply of the goods to be sifted together to be found with the sifting air.

According to the invention, this goal is achieved in this classifier by essentially the classifiable material conveyors passing horizontally under the foot of the zigzag channels and through underneath Nozzles arranged at the foot end for supplying the classifying air.

The transport of the goods under the individual sight tubes can be done in different ways, z. B. by vibration conveying or by a known pneumatic conveyor trough.

In such a classifier, part of the fine material is discharged upwards in each classifier tube the coarse material and the other part of the fine material fall out of this again and the next sight tube are fed. With a number of sight tubes adapted to the sight problem, this Way, any cleanliness of the coarse material can always be achieved.

This arrangement has the following advantages:
a) The connection of the individual sight tubes requires only very little additional effort. In the borderline case, the sight tubes connected in parallel can be arranged over an existing transport device for the goods. b) The part of the sight tubes previously required for the cleanliness of the coarse material is omitted below the loading point for the sight material, which means corresponding savings in terms of construction height and costs.

c) The vertical conveyor element for the feed material can be lower by the height of the lower part that has been removed and, under certain circumstances, can be omitted entirely.
d) There is the possibility (see below),

to save an air shut-off device.
With such a parallel connection of sight tubes, it must always be ensured that the same rate of rise prevails in each tube in spite of possibly different loadings of the individual sight tubes. In order to achieve this, the sifting air can be let out through adjustable throttles arranged in the head of the zigzag channels with an additional air resistance at least equal to that of the zigzag channels.

It is possible in a simple manner to divide a material to be sifted into ■ any number of fractions. To be the parallel zigzag channels of the riser air separator in groups of zigzag channels with - viewed in the direction of flow of the material on the conveyor - divided by increasing the opening width of their throttles.

However, the classifier can also only be used in steps Coarse material cleaning can be used, with the different fine material fractions in a common Collecting container and from there into a dust collector.

In the classifier according to the invention, in which the material to be classified is guided under the individual classifier tubes, there is the advantageous possibility of designing the pneumatic system so that both the entry of the Goods to be sifted as well as the escape of the sifted goods can take place without the exclusion of air, so that only a single air seal member is required for the fine material. For this purpose, the sifting air guided in a closed circuit, d. H. the air is loaded with fine material and extracted at the sight tube head, goes through the dust collector and blower and is then returned to the bottom in unchanged quantities blown the sifter. In the previously known arrangements of multiple riser pipe separators had to two or three of the openings for feed, fine and coarse material can be provided with air shut-off devices. It has been shown that the classifier according to the invention can be used without further ado or with changes Feed and discharge organs not essential to the invention, also for sifting with water as a fluid suitable is.

In the drawings, exemplary embodiments of the invention are illustrated schematically, namely indicates

F i g. 1 a riser pipe windsifter in a longitudinal section,

F i g. 2 the ascending pipe wind sifter according to FIG. 1 in the longitudinal section offset by 90 ° and

F i g. 3 the classifier of FIG. 1 and 2 with a closed cycle of the classifying air.

The F i g. 1 and 2 show the ascending pipe windsifter with the zigzag channels 1 above a conveyor which leads the material to be classified essentially horizontally under the foot ends of the zigzag channels. The feed item A is - z. B. on the porous floor 2 - successively passed under the feet of the individual zigzag channels 1 and one after the other each zigzag channel - whirled up by the air blowing in a sharp jet 3 from the nozzles 6 - supplied from below. It can be advantageous to blow in the sifting air under the individual sifting channels alternately from the left or right. In each viewing channel, part of the offered fine material is carried upwards and through the adjustable throttles 4 arranged in the viewing channel heads into the collecting container 5 for the fine material F , while the coarse material falls down with the remaining fine material and is then offered to the next zigzag channel. In each zigzag channel, the fine material still remaining in the item to be sifted becomes less until the end - here after five siftings - a coarse material G of the desired cleanliness remains. The throttles 4 have an additional air resistance which is at least equal to that of the zigzag channels.

In Fig. 3 is the example of FIG. 1 and 2 shown with a closed circuit of the classifying air L. In this pneumatic circuit, the air pressures at the point of application for the material A and at the outlet opening for the coarse material G (see FIG. 1) are equal to the room pressure, so that both openings can remain open without an air seal. Each zigzag channel 1 removes part of the fine material F from the material to be classified according to the separation limit determined by the rate of rise and the carrying capacity of the air, until at the end a sufficiently cleaned coarse material G can be removed from the outlet opening. The classifying air L is pressurized by the fan 7 and then blows through the nozzles 6 into the zigzag channels 1. The adjustable throttles 4 have an additional air resistance at least equal to that of the zigzag channels. The classifying air L laden with fine material F comes from the throttles 4 through the collecting container 5 and the material supply line 10 into the dust separator 8, from which the fine material F is discharged through the air shut-off element 9 - the only air shut-off element required for the entire system Sifting air L , which has largely been freed of good, comes from the dust separator 8 through the clean air line 11, 12 via the blower 7 back to the nozzles 6.

Claims (4)

Patent claims: 1. Riser air classifier with parallel zigzag channels known per se, their sloping walls Form common boundary walls and their foot ends in a common air and Gutzuführraum open out, characterized by the material to be classified essentially horizontally below the foot of the zigzag channels (1) passing conveyor and through below the Nozzles (6) arranged at the foot end for supplying the classifying air. 2. Riser air classifier according to claim 1, characterized by in the head of the zigzag channels (1) arranged adjustable throttles (4) with at least one of the zigzag channels same additional air resistance. 3. Riser air classifier according to claim 1 and 2, characterized in that the parallel zigzag channels (1) in groups of zigzag channels with .— in the direction of flow of the material on the Conveyor seen - increasing opening width of their throttles (4) are divided. 4. Riser air classifier according to claims 1 to 3, characterized by a circuit for the sifting air with a fan (7) and a dust separator (8), its material feed line (10) is connected to a collecting container (5) common to all throttles (4) and its clean air line (11, 12) leads via the fan (7) to the nozzles (6). 1 sheet of COPY drawings