DE1140439B - Jet mill with a ring-shaped, self-contained flow channel - Google Patents

Description

Jet mill with an annular self-contained flow channel Die The invention relates to a jet mill with a ring-shaped, self-contained Flow channel.

Jet mills are known in which the ring-shaped, self-contained Flow channel consists of a crushing section and a viewing section, wherein the ground material is fed to the comminuting section and the comminuting section with the viewing section, through an upwardly extending channel section and the viewing section with the shredding section through a downward-stretching one Channel section are connected.

Since when entering the crushing section, the grist has a strong Undergoes deflection, it has a particularly strong erosive effect against the inner wall of the flow channel. It is therefore known to use the comminuting section of the flow channel to form involute in the ring plane, with this circular shape at the entry end Has cross-section and oval cross-section at the outlet end. Through this shape of the crushing section, the inner wall will wear as little as possible the same achieved.

The above is particularly susceptible to wear in jet mills type described the parting line lying in the flow plane of the housing, the in the known constructions in the plane of symmetry of the flow channel and so that it lies in the middle of the area of impact of the injected pressure medium jets. According to the invention, this source of wear is now eliminated, in that the Flow channel consists of a trough-shaped main part with a cover part, whose Parting plane is offset with respect to the central plane of the circulation channel. This measure has the effect that the parting plane of the housing cover part and Lower part of the housing not exactly at the height of the middle of the one blown into the mill Pressure medium jet lies, so that the strongest of the wear, by the blown, the parts of the housing wall underneath the jet carrying the regrind are not removed from the parting plane are interspersed.

The asymmetrical division of the annular flow channel forming housing also makes it possible that the feed nozzles on the lower Housing part can open out and the housing interior. by lifting the lid for the purpose of checking and cleaning is accessible without the Connection of the nozzles to the housing is impaired.

An exemplary embodiment is shown in the figures. Of the figures, FIG. 1 shows a top view of the mill with the cover surface removed, FIG. 2 shows a side view of the mill, seen from the left side of FIG. 1, with the cover surface in place, FIG. 3 a horizontal cross-section through the mill, the section line in Fig. 2 being denoted by 3-3 .

The housing of the mill has a main casting 10 and a casting cover 12. The main section and the cover part form, as Fig. 1 shows a 16 self-contained endless flow passage from Fig. It can be seen 2 and 3, the parting line 14 passes of the main part and the ceiling-Iteiles outside the median plane of the self-contained endless canal. The main part and the cover part are connected to one another by means of screw bolts 11 which are guided through corresponding holes 13 in the two cast parts. If the main part and the cover part are referred to as cast parts in the foregoing, this is due to the fact that this is the most convenient type of production, but other types of production can also be used if desired.

The annular flow channel 16 consists of the comminution section 18, which merges into an upwardly directed channel section 20, which is then followed by the viewing section 22. This merges into a downwardly directed channel section 24, which in turn is connected to the comminuting section 18 .

The ground material is introduced from a funnel 26 into the annular flow channel 16 through a nozzle 28 with a tubular extension 30, to which the pressure medium flows via a feed part 32 .

Further nozzles 34 and 40 are located in the lower part of the comminution section 18. The nozzles are arranged in such a way that the supply of elastic pressure medium through the Venturi nozzle and through the two inlet nozzles causes the elastic pressure medium to circulate through the annular flow channel 16 in the through the Direction indicated by arrow 50 causes.

At the end of the viewing section 22, an outlet 52 is provided with an opposite flow direction and is connected to an outlet pipe 54.

As can be seen from FIG. 3 , the upwardly directed longitudinal section 20 is of an elliptical cross section and the downwardly directed section 24 is of a circular cross section. The comminution section 18 and the viewing section 22 each form the transition between the elliptical upwardly directed longitudinal section 20 and the circular downwardly directed longitudinal section 24. The supply to the viewing section 22 is elliptical and the discharge circular, while the supply to the comminuting section 18 is circular and the discharge is elliptical.

In the transverse direction, the annular flow channel according to FIG. 2 is essentially uniformly thick, while according to FIG. 1 there are differences in the transition points between elliptical and circular parts. The upward and downward longitudinal sections of the mill have, as FIG. 1 shows, parallel side walls and their longitudinal axes are parallel.

The curved portions which denzer size reduction portion and form the display portion, and the connect upwardly extending and downwardly extending longitudinal portions of the top and bottom have substantially the form of involutes, d. H. the inner and outer walls of these chambers are shaped like the surface of a cam plate for smooth acceleration. This design ensures little wear and tear on the chamber walls and ensures the lowest possible turbulence in the elastic pressure medium which flows through the viewing section. In this way, high velocity currents can be used in the comminuting section without adversely affecting the mill and fine separation can occur in the viewing section.

Claims (3)

PATENT CLAIMS: 1. Jet mill with a ring-shaped, self-contained flow channel consisting of a comminuting section and a viewing section, in which the grinding material is fed to the comminuting section and the comminuting section with the viewing section through an upwardly extending section and the viewing section with the comminuting section through a downwardly extending section are connected, characterized in that the flow channel consists of a trough-shaped main part (10) with a cover part (12), the parting plane (14) of which is offset with respect to the central plane of the circulafion channel. 2. Jet mill according to claim 1, characterized in that the downwardly extending connecting portion (24) has a circular cross-section and the upwardly extending connecting portion (20) has an elliptical cross-section, the small elliptical axis perpendicular to the plane of circulation being approximately equal to the circular diameter. 3. Jet mill according to spoke 1 or 2, characterized in that on the main part (10) of the chopping section (18) nozzles (28, 34, 40) for injecting a pressure medium with chord-like outflow directions penetrating the chopping section are attached. Contemplated publications: USA. Patents No. 2590220, 2704635..