DE2414686A1 - Siever with pneumatic material delivery - and pneumatic counterflow sieve-cleaning, maintaining single-grain max layer - Google Patents

Abstract

Material is pneumatically delivered from above to a sieving surface for seiving, and pneumatic sieve-cleaning in counterflow to the direction of forwarding, as a compressed air blower which periodically sweeps over the underside of the sieve. The frequency and strength of the cleaning air streams are enought, w.r.t. the impinging stream of sieved material, to prevent formation of a deposit of more than single-grain thickness. Preferably, the movement of the cleaing air streams and their frequency are sufficient for this, and transport the coarse material along the sieve.

Description

Applicant: Allgaier - ÜJsrke GmbH, 7336 Uhingen / üürtt

Method and device for sieving

The invention relates to a method and associated devices for sieving predominantly fsindispsrsem sieved material with the aid a flowing medium, preferably air.

The purpose of using flowing air for sieving is the transport, a loosening and dssagglomeration of the screenings as well as a Blowing out the sieve mesh. This then leads to a higher screening performance and selectivity «

It is already known to counter air from nozzles through a sieve to blow the screenings, with a relative movement between nozzles and Sieve running. The air blown into the sieve is returned in it and flows out again through the sieve ^ with fine material with it is carried out. - Special reference is made to DP 373647 and DP 1126223. - The associated provisions exist either from a rotating Siebtrammal with fixed slot nozzles or a standing round sieve with rotating nozzle arms underneath, which are also provided with slot nozzles.

In the previously known methods and devices, it is disadvantageous that the sieving capacity is not particularly high and that, with continuous operation, the selectivity does not depend on the batch operation comes up.

It is the object of the present invention to address both of these disadvantages to fix. According to the invention, this object is essentially achieved in that the frequency and the strength of the from the opposite side through the screen blown cleaning air jets in relation to the incident Siabgutstrom sufficient to form a support from more than IClono grain thickness.

S09842 / Ö49G

24U686

For example, when the material to be screened is pneumatically conveyed against the screen, the fine material passes more or more completely through the bottles, while the coarse material remains on the screen. The air jets blowing through the sieve from the opposite side must move srfindungsgeäß so quickly and whirl up the coarse material in such quick succession so transport along the sieve that at most an approximately monocorn-thick coarse-grain layer can form. This has the advantage that _s ss never koramt to a complete clogging of the sieve ₀

An advantageous further embodiment of the invention consists in that between the Siebsana and the withdrawal zone for the coarse material a The rinsing zone is in which clean air is used on the sieve / poured. Part of the purging air passes through the sieve, the other contributes to the pneumatic removal of the coarse material at * - This measure is achieved ^ dai3 practically no sensitive grain got into the coarse material «

It is particularly favorable ₅ uisnp dis air jets the material to be screened not only vertical: Siab kicking away, but also a Bssegunoskomponente toward the discharge zone of the coarse material toward sufusexsene - this causes the Siab no longer blocked than necessary coarse material uiird.

A particularly favorable device for carrying out the process consists of a cylinder mold with an outer feed zone for the Siebgutj a central concentric rinsing zone and a central one Discharge point for the coarse material. - As a result, the geometric shape of the sieve is adapted to the sieve area requirement and a maximum sieve width enables.

SG9842 / Q496

There is a favorable way of supplying air to the nozzle arms won the sieve side through the sieve. For this purpose usually the sieve in the Witte a mechanical seal opposite the rotating one Nozzle body on. The sieve can also have an opening within the mechanical seal. - The advantage of this version lies in the low pressure reluctance of the nozzle air and in the simple apparatus structure.

A particularly simple device for generating the air jets, that blow through the sieve and whirl up the coarse material on the sieve is a propeller rotating close under the sieve, ujobei especially it is advantageous to use only a single propeller blade. As a result, with a small amount of equipment, an often sufficient one The material to be sieved is swirled up.

Below are three embodiments of the invention based on Drawing explained with 3 illustrations. Of these show in detail:

Fig. 1 shows a device for pneumatic screening in the embodiment as a round sieve with zsntralara coarse material discharge.

Fig. 2 shows a modified device for the pneumatic Sieving with an air supply to the nozzle arms of the sieve side and

Fig. 3 shows a further modified device for pneumatic sieving with a propeller for cleaning the sieve and Swirling up the material to be screened.

In the sieve device according to FIG. 1, the sieve is in the housing 1 clamped. Nozzle arms 3 rotate under the sieve 2; they have a slot-shaped nozzle opening 4 on the side facing the sieve. The nozzle arms 3 are connected to the drive 6 via an air bell 5. A fan 7 promotes the nozzle air which flows through the sieve 2 material to be sieved lying on the sieve whirls up and then again

509842/0496

Ik H 68 6

flows back through the sieve. The one brought in at the task point G; The material to be sieved mixes with the Föider air. This is either taken from the environment or felt in a closed circuit (dashed line). In the further course the ciui chsträmt; Conveying air with the fine material riac sieve 3. The coarse material remains on the sieve 2, passes the rinsing zone 9 and reaches the central coarse material discharge 10. Fine material and excess material are finally in the fine material separator 11 or ¹ . Gr-obgut-jibschc :: the 1λ separated from the air. A common fan 13 causes the air to be transported, with control elements 14 allowing the air flow to be adjusted.

In the embodiment of FIG. 2, under the sieve ', ^; in turn, the nozzle arm 3. Cine hub 15, which is open at the top, airs against a mechanical seal 16 which is attached to the Lieb 2. The nozzle air ujird by an air supply 1B animal is introduced, flows through the honeycomb 15 and the attached to it Düsenarr.ie 'Δ and escapes from the nozzle openings. 4

In the exemplary embodiment in FIG. 3, the air flow passing through the screen 7 is generated by propeller blades 17 rotating under the screen 2.

As an example of the embodiment of this invention, the following figures are: screen mesh size approx 3d - 500 ^, Siubdurchmesser 0.2 1 m, nozzle speed 10U - 1U00 U / min, RNM slit width of the Düsenüffnuriytn 1-5, Zuströmgeschwindinkei t of the material to be screened on-Luf tmischung dss sieve 2-10 m / s, material load of the air 1 - 5 kg out / kg air, outflow speed of the air from the nozzles 20 - 100 m / s. In the case of the propeller, the circumferential speed is about 50 - 2U0 m / s.

Expectations :

509842 / 049G ORIGINAL BATHROOM

Claims (1)

air PatentamifiidtTiy üüx Λ ilb-iier-'ueri · e ϊ-ίΐιΐϋΗ, 733tj Uh intjün / j ^ r tt. iil March 1νΛ · P a t β η t a π s ρ r ij L ti a Method for sieving a pneumatic seat from above abandoned -iiebguc-mixture by pneumatic Fürdarn des Fine goods through the JiuüFliiehs with one in the countercurrent to the conveying direction effective pneumatic screen cleaning in the form of a compressed air gas device that periodically sweeps over the underside of the screen surface, characterized in that the frequency and the strength of the from the opposite side by the Screen blown cleaning air jets in relation to the incident Sufficient flow of material to be screened to prevent the formation of a layer of more than ilonocorn thickness. 2.) Sieving machine for performing the method according to claim 1, characterized in that dia of On the opposite side, the air jets blowing through the sieve move so quickly under the sieve surface and the coarse material in such quick succession whirl up and transport along the sieve so that at most a coarse-grain layer that is about non-nano-grain thick can form. 3.) Sieving machine according to claim 2, characterized in that that a rinsing zone (9) is arranged between the sieve zone and the discharge zone, in which clean air from The feed side flows onto the sieve. 4.) Sieving machine according to claims 2 or 3, characterized characterized in that the cleaning air jets a Additive component in the direction of the pulling zone of the coarse material point out. 5.) Sieving machine according to claim 2 or the following, characterized characterized that this is a stationary round sieve (2) with an outer feed zone (8) for the material to be screened, a central concentric rinsing zone (9) and a central coarse material Austrug (Hi) ciuf we; LiA .. G.) drawing machine according to fn ^ pLUch 2 υ α er fultjariGen, ü a Jü r α h ge.ken η draws t, tiaü the compressed air used for the cleaning of the compressed air under the operating area beu / eqiich cncjeurcjfiüten uiasi / device (3) through the sieve body (v) via a central air supply (10) from the sieve feed side Ej; us and fed (2). 7.) Sieving machine according to claim 2 or one of claims 3 to 5, characterized in that da.3 dtr HeiniQunys-Luf tstrahi producers from Hineni at a slight distance below the Sieve rotating v / orzugujeiso single-bladed propeller (17) breathed. ¹ H iß 4 S »ΐ. Ib i * \ t irr, - »,