DE1757161B1 - Impact mill - Google Patents

Description

I 757 161

1 2

The invention relates to an impact mill with side held by means of a disc body, around a vertical axis of rotation at the same speed, while those revolving with a foot, in an inner and an outer reduction element of the outer circumferential git grid summarized, on at least one ters in appropriately designed recesses Disc body on the top and in the same horizontal 5 of a further disc-shaped support element level arranged shredding elements with standstill due to a centrally braced bracket flat baffles and an axial feed of grist are prevented from falling out and during operation as well as with an outside of the outer grid on the form fit between the support and crushing mill housing arranged fixed impact element are held. Those for the elements of the outer grille. ίο ren circumferential grille provided bracket can

In such impact mills, a distribution is in the form of a plate spring or a disk end centrally fed ground material be formed by diffuser body. But others can too with disk or step-shaped cross-section or known machine elements are used, made by a stream of carrier air so that. An influence on the degree of comminution

the grist in a steady stream in a 15 can not only by changing the rotating Shredding grid can occur. speed of the grinding elements take place,

Milling systems known up to now have two variable cutting ends, but according to the invention also have one variable cutting end Recognize the disadvantages. When choosing the angle of attack of the shredding elements high peripheral speed of the comminution can be achieved.

elements are the grinding process with large Venti- 20 according to the invention is encumbered lationsverlusten in a further embodiment, while small circumferential of the invention proposed, therefore, that the individual velocities require a separator, elements of the inner circumferential grid of äuße- gt wherein the viewing process an additional load on the Ren circumferential grid and those of the fixed ™ grinding system and the classifier itself represents an additional standing grid radially or opposite the radial wear element. In addition, the grinding direction is set at an angle to allow good throughput of such mills when using the.

the aforementioned scattering body because of the low loading

Acceleration of the material to be ground to the outside can be carried away to the grinding chamber, this is in two ways small values limited. further embodiment of the invention of a spiral

The object of the invention is to provide a 30-shaped housing with at least one To create impact mill, with which enclosed in a one-time output. The spiral training Passage of the material to be ground through the mill, which offers the other housing in the arrangement of multi-aspirated Grinding fineness with relatively large throughputs. rer outputs the advantage of an equal as possible without Classifier and with moderate ventilation losses' moderate division of the total flow into parts achieved will. 35 streams. However, the same effect can also

According to the invention, this object is achieved by proposing an impact mill for the outer manure the grist is provided on the outer circumference. The outlets can be attached to a disk body and, for example, when using a cylindrical housing shape above or below the ground material in the form of an annular channel, but also from the side, the comminution tubes can be attached. Besides the special, Ausdes rotating grating outer exterior formation of the complete housing to the outer area of the grinding chamber _Λ of a much larger disc body is fixed on are for the function \ and the efficiency in the radial direction between the environmentally 45 and the fulfillment of the object of the The ring-shaped space running along the end of the grids is free of the impact mill according to the invention, the attachment of the further crushing elements. Crushing elements of the inner and outer

Around the grid rotating out of the inner rotating grid.

stepping regrind in the desired manner to the outer. With reference to those shown in the drawings To be able to feed the rotating grating, the invention is shown in various ways in the following in which between the Elementeri'-des those explanations explained in more detail, inner grid and the elements of the outer rota- Fi g. 1 is a schematic representation of a longitudinal

No further cut through part of the shredding elements according to the invention is provided. In addition, the impact mill, the housing cover in the pond between the Zer- 55 ⁴ * 'Fig. 2 is a section along the line II-II of Fig. 1; reduction elements of the circumferential lattice in such a way that FIG. 3 shows another possible embodiment that, according to the invention, its lower edge in the form of the impact mill according to the invention is partially at the level of the upper edge of the outer crushing section;

elements lies. This prevents the F i g. 4 is a section along line IV-IV of FIG

Grist is fed through the rotating grinder 60 Fig. 3.

reduction elements and the upper housing via a coaxial to the system

completed gap moved outwards, without an annular gap 1, the grist falls freely into a hit by the shredding elements to centrally located inner surrounding grid with will. Crushing elements 2, with which it is accelerated to the notin further embodiment of the invention 65 agile radial speed, also proposed that the individual elements of the um in the outer, uminnen at high speed Grids in dovetail-like outflow grids of the comminuting elements 3 recesses of a support element and to be able to step over it. On the flight between the

reduction elements 2 and the grid 3, the material moves through one of the disc-shaped, rotating support element 4 and the stationary housing cover 5 formed gap 7. The grist leaves after a single impact the crushing elements 3 of the outer circumferential grid approximately tangentially and then impacts perpendicularly on the crushing elements 8 of the outer fixed grid, where post-shredding takes place. The shredded material then arrives in the most favorable area.

side, the actual shredding elements are located on the outer edge, the height of which is only a few Grain diameter of the raw material, the ventilation losses of the otherwise smooth support remain element within moderate limits even at high peripheral speeds. The angle of impact of the grist on the crushing elements of the stationary and stationary grid lies at approximately 80 ° within the wear and shredding technology

the outer area 9 of the grinding chamber, which, as shown in FIG. 2 can be seen from a spiral trained housing 10 is enclosed. In the embodiment according to FIG. 2 are two outer Areas 9 of the grinding chamber are each provided with an outlet 11, 12. Due to the simultaneous use the crushing elements 3 of the outer circumferential grid leaves the system in a uniform manner Electricity in scope. The arrangement of the outlets 11, 12 with a corresponding angular division enables a division of the total flow according to any branching rule.

As shown in FIGS. 3 and 4 can be seen, allows the arrangement of suction nozzle 13 in the Grinding chamber 9 between the housing jacket 10 and the comminuting elements 8 of the outer circumferential Grid with a corresponding angular division also a division of the material flow according to any Branching rule.

In order to be able to easily replace the elements 2 of the inner circumferential grid, these are on outer periphery of a disk body 4 'inserted in dovetail-like recesses 14 and are prevented from sliding out by a cover plate 15.

The crushing elements 3 of the rotating outer grid are from below in corresponding Recesses of the disc-shaped support element 4 are used. The individual elements 3 are included a foot 16 which engages in a correspondingly shaped recess 17 in the support element 4. When the machine comes to a standstill, the individual shredding elements are held in place by a holder 18 to prevent them from falling out prevented. The holder 18 can be designed as a plate spring or as a disk body be. The crushing element is designed so that its center of gravity is above the disk-shaped Support element 4 is and the attacking centrifugal force tries to pull it upwards, which is through the form fit between the foot 16 and the recess 17 is prevented.

The advantages that are achieved with the impact mill according to the invention are, in particular, that the ground material can be crushed to the required grain size in a single pass. It is possible without any special design effort to get to know the various properties of the to adapt the material to be ground. This is done on the one hand by means of a material that is adapted to the properties of the ground material Circumferential speed and on the other hand by a certain position of the shredding elements in the fixed and rotating grid opposite to the radial direction. It is also possible at high peripheral speeds given to achieve large throughputs with a very small mill construction volume.

Due to the design of the support element as a disc with smooth surfaces, on the top of which

For this purpose, 1 sheet of drawings

Claims (6)

Patent claims: 1. Impact mill with revolving around a vertical axis of rotation at the same speed, in one inner and an outer grid combined, on at least one disc body Crushing elements arranged on the top and in the same horizontal plane with flat Baffles and an axial grist and with an outside of the outer grid on Fixed impact grille arranged in the mill housing, characterized in that the Crushing elements (2) of the inner circumferential grid on the outer circumference of a disc body (4 ') attached and directly below the grinding material feed, which is designed as an annular channel (1) are arranged, the crushing elements (3) of the outer circumferential grid in the Outside of a much larger disc body (4) are attached and in the radial Direction between the surrounding grids (2 and 3) lying annular space (7) free of further crushing elements. 2. Impact mill according to claim 1, characterized in that the lower edge of the housing cover (S) in the area between the shredding elements (2 and 3) of the surrounding grids at the level of the upper edge of the outer shredding elements (3). 3. Impact mill according to claims 1 and 2, characterized in that the crushing elements (2) of the inner circumferential grid guided in dovetail-like recesses (14) of the disk body (4 ') and on the top are held by means of a cover plate (15), while the crushing elements formed with a foot (3) of the outer circumferential grille in appropriately designed recesses in a larger disc body (4) at a standstill by a centrally tensioned bracket (18) prevented from falling out and at Operation are held by a form fit between the support and crushing element. 4. Impact mill according to claims 1 to 3, characterized in that all the crushing elements (2 and 3) are angularly adjustable with respect to the radial direction. 5. Impact mill according to claims 1 to 4, characterized in that the outer region (9) of the grinding chamber from a spiral-shaped housing (10) with at least one Output (11,12) is enclosed. 6. Impact mill according to claims 1 to 4, characterized in that the outer region (9) of the grinding chamber is surrounded by a cylindrical housing (10). in which the outlets (13) for the grinder. copy