DE2012797C3 - Device for the sifting of bulk goods - Google Patents

Description

35 The classifying air thus flows through the device in a closed system. Through the control system

The air that initially enters the coarse material separation chamber in a circling manner is reversed Twist deflected in the axial direction, to then

The invention relates to a device for a 4 ° approximated radial direction to be deflected onto the rotor of the coarse material of bulk goods by means of a centrifugal wind separator. In this way, all of the particles floating in the sifting air circulate one in the associated separation room, which is responsible for the separation of coarse material and fine material, onto the rotor of the coarse material separator, which then has the rotor, which counteracts the centrifugal fine particles from the roughly in its rotation is traversed by sifting air, and that in 45 the force field, formed by the radial inflow direction of the sifting air, a radial centrifugal force of the rotor running at a speed and the radially outward acting fan chamber on the same shaft, separates and the coarse particles blower wheel is connected downstream, the two of which throws off into the surrounding space.
separator blower units by means of a duct with the largest part of the fine material separation

connected to each other and the separation rooms each with 50 of the goods floating in the sifting air a material outlet are provided, and the material to be classified - the centrifugal force takes place on the inner wall of the housing for material supply in front of the coarse material separator. outlet directed. Only the finest to the rotor of the fine-one Such a device can, for example, be used to separate particles that have passed through German patent specification 521 082. With this centrifugal force field it was flung out again The classifier should change the air to be cleaned finer.

Dust can be deposited. With the new sifter it is now possible to

the dust-laden air in each axial direction from an air-chip mixture, the coarse and fine parts towards the rotor, in order then to sift out in approximately radial good parts without flowing through the rotor in an undesired direction. Air and chips do not segregate. This reversal of direction of the air is advantageously supported by the relatively low construction, a housing partition arranged behind the rotor transversely to its expenditure for the device and the comparative axis of rotation. This wise low power requirement for the fan,
»A repeated reversal of the direction of flow by each- In an expedient embodiment

Because it is approximately 90 °, a fixed guide can only be used for the coarse material separation room in a classifier, when only dust 65 is pre-separated from the air stream with a blade ring and an axial volute casing shall be. Such dusts can be heavy.

ben in the air stream and thereby form a one In the drawing is an example

. Emulsion-like homogeneous mixture. Embodiment of the invention shown. It shows

Fig. 1 in a schematic representation in side view a centrifugal sifter and

F i g. 2 shows a cross section through the device according to FIG. 1.

Thereafter, the separator shown has two m overall S separated housings uotergebrachte separator blower units. A material inlet 1 opens approximately centrally into a fan chamber 2 in which the fan 3 of the fine material separator rotates. The blower chamber 2 is connected to the coarse material separation chamber 11 via a tangentially opening pressure duct 5 and the fine material blower chamber 15 is connected to the fine material separation chamber 17 by means of a tangentially opening pressure duct 16. The pressure channel ends in the coarse material separation chamber 11 in an axial spiral housing 6 upstream of this, which is followed in the axial direction by a guide vane ring 7 arranged outside the rotor 10 of the coarse material separation chamber. Annular guide plates 9 form an inwardly pointing annular guide channel 8 which guides the air onto the rotor 10 of the coarse material separator. This hurls the coarse material into the separation space 11, from which it is discharged via a coarse material outlet 12 and a cell lock 13.

The fine material is separated by the rotor 10 of the coarse material separator, which consists of a rod or blade cage sucked inwards and ubor the radial impeller 14, the blower room IS and the pressure duct 16 blown tangentially into the fine material separation chamber 17. From the latter, the fines will be over a crop outlet 18 and a cell lock 19 are discharged. The residual fish still floating in the sifting air Fine material particles are moved from the rotor 4 of the fine material separator into the fine material separation room 17 thrown back. The cleaned visual air arrives then back to the fan 3 of the fine material separator and from there to the fan chamber 2, where they is mixed again with visible material via the material inlet 1. It is essential that this classifying air is passed tangentially via the pressure channel S into the axial spiral housing 6, here a large swirl has, to then deflected by the guide vane ring 7 with cancellation of the swirl in the axial direction and to be passed through the annular channel 8 onto the rotor 10 of the coarse material separator.

1 sheet of drawings

Claims (1)

1 2 On the other hand, this known Vorrich- claims: device no visual effect on z. B. Achieve wood chips. Due to the high sinking speed of the chips 1. Device for the sifting of bulk materials in the air, the chips would be in the above by means of centrifugal wind sifting, which settle the air deflection explained for the 5 and thus close Coarse material and fine material separation each lead to blockages. In addition, there were chips associated separation chamber rotating rotor in which by the fan of the coarse material separator in has, the opposite to the centrifugal direction of rotation of the air flow always on the outside air is traversed, and remain in the flow wall of the classifier and not radially direction of the classifying air can get one io inside to the downstream rotor. Fan room running on the same shaft Ra- A useful dividing line with regard to each dial blower wheel is connected downstream, with the desired chip fractions would thus be with the the separator-blower units cannot be reached by means of a device explained above. About channel connected to each other and the ab- this would not be possible by changing the Separating rooms each provided with a material outlet 15 rotor speed a shift in the separation limit are to be carried out, as well as the visual goods supply 'voi the coarse goods. separator takes place, thereby marked- The invention is therefore based on the object shows that the two separator lines convert the known classifier explained above into blower units in two separate housings so that we can bring wood, for example, out of an air stream and each fan chamber (2, 15) was sifted out into the desired fractions by means of 20 chips a tangential opening channel (S, 16) which can be used in particular for the production of serve with the separation room (H. 17) of the other chipboards. Linheit is connected, the pressure channel (5) This object is daduiui according to the invention of the fan (3) of the fine material separator in that the two separator-fan units Coarse material separation chamber (11) housed in one of the air 25 in two separate housings and each Swirl-canceling guide device (7,8,9) radially opening out the fan chamber by means of a tangential outside of the rotor (10) of the coarse material separating channel with the separating chamber of the others ders ends and the pressure channel (16) of the Geblä- bifiheit are connected, the pressure channel of the ses (14) of the coarse material separator tangentially in the fan of the fine material separator in the coarse material-waste separation room (17) opens. 30 separating space in a guide 2 that removes the air swirl Apparatus according to claim 1, characterized in that the device is radially outside the rotor of the coarse Uennzeichnei. that the coarse material separator ends, and the pressure channel of the plant (11) a fixed guide vane ring (7) and biases of the coarse material separator tangentially into the an axial spiral housing (6) are connected upstream. Fl'.ngut-Abscheiderraum opens.