DE645522C - Device for crushing ground material - Google Patents

Description

There are already devices for crushing grist known, for which two opposite driven hollow cones of various sizes and opposite ones Slope can be used. Crushing takes place on the inner surface of these hollow cones of the grist. The exit end of the smaller hollow cone protrudes into the larger hollow cone and flings the grist on its inner surface.

The invention consists in improving these known devices by that the large hollow cone on the side of the small hollow cone diameter with a feed device is equipped for the fresh material and the ground material to one on the side of the small hollow cone diameter of the small grinding cone leads to its loading arranged feed device.

Through this invention proposed a better operation of the crushing is achieved \ ^r orrichtung. In the new device, in addition to being crushed by impact, the ground material is also ground by the layers moving towards one another. This is not the case with the known devices, because in this case the comminution of the material is effected only by throwing the ground material onto the inner surfaces, which has a further disadvantage that these surfaces wear out easily. In contrast to this, in the mill according to the invention, the conical surfaces by far do not experience this wear due to the grinding material moving along. '

An embodiment of the invention is shown in the accompanying drawings. It is

Fig. Ι a longitudinal section through the centrifugal force working shredder,

Fig. 2 is a cross-section along the line 2-2 of Figs. 1 and

FIG. 3 shows a similar section along line 3-3 in FIG. 1.

In bearing blocks 2 and 3, which are located on a base plate 1, is in on the Heads 4 and 5 located bearings 7 and 8 a shaft 6 mounted horizontally. For the introduction of the ground material, a funnel 9 is provided which surrounds the shaft 6 on a flanged sleeve is constructed and attached to the head 4. The funnel opens towards the machine around the shaft 6 and has an inclined chute or mouth opening 10.

The funnel 9 is directly connected to its narrower opening by a rapidly rotating drum 11 which is open on both sides and has a conical surface on the inside. The drum is carried by a hub 13 which is rotatably mounted on the shaft 6. The hub extends up to the flange of the feed funnel 9, the feed opening 10 of the funnel ^{protruding a little into the opening x of} the drum on this side. The drum

Ii has a number of radial spokes 14, from which three "are shown in the drawing, which have an elliptical shape and are longitudinally the shaft 6 result in a wide passage opening. The outer drum 11 is on its circumference is formed into a pulley, so that it is by means of a belt 15 can be specially driven.

On the shaft 6 there is also an inner drum for rotation therewith by means of a bush 17 16 attached, which is open at both ends. The drum is radial by a number Spokes 18, three of which are shown in the drawing, are worn. The spokes have an elliptical shape in order to have the largest possible passage cross-section in the length of the Form wave 6. The inner drum 16 has a conical surface 19 on the inside, which borders with its wider end on the drum 11 and more or less in this protrudes. The slope of the surface 19 of the inner drum 16 is slightly less than that the corresponding face 12 of the outer drums. In any case, however, is the Angle of inclination to the axis of rotation less than 45 °

The circumference 20 of the inner drum 16 is towards the wider end of the outer drum 11 is too conical and extends along an inwardly curved line. The narrower end of the circumferential surface 20 is at a distance from the inner surface 12 the outer drum 11, so that between these two surfaces of the drums an annular Channel is formed.

The inner drum 16 has an end protruding from the outer drum 11 beveled surface 21, which the narrower end of the inner conical surface 19 with the wider of the conical circumferential surface 20 connects and thus a space for has a purpose to be described later. The inner drum 16 can be independent are driven by the outer drum 11 by means of a pulley 22, which is fixed on the end of the shaft 6 outside the bearing 5 and is driven by means of a belt 22 ^ 4.

A bushing 23 is fastened to the inside of the bearing 5 by means of dowels 24, 24. the The bushing is supported on the shaft 6 at its ends by means of bearings 25, 25. At the end of Bushing 23 is an inwardly and outwardly extending flange plate by means of screws 27 26 attached.

A bucket wheel 29 is mounted on the socket 23 by means of its outwardly extending hub. The hub extends from the end face of the bearing 5 to the radially extending edge of the flange 26. The scoop wheel 29 has an inwardly open annular channel in which a number of plates 30 are fixed, which form the pockets for scooping. These pockets are designed such that its contents during rotation of the bucket wheel in.der in Fig 1 and 3, the arrow direction in the top sheet. empty area. The circumference of the scoop wheel 29 is formed into a pulley so that the wheel can be driven independently of each of the drums 11 and 16 by means of a belt 31. On the side of the scoop wheel facing towards the hub 28, an end plate 32 is provided which has openings 33 arranged in a circle in the vicinity of the ring channel of the wheel.

The beveled end surface of the inner drum 16 extends together with the narrower end of the inner surface 19 partially into the middle part of the bucket wheel 29. The side wall of the ring channel of the bucket wheel 29 is significantly narrower on this side than on the other, and the plates 30 for the scoop bags extend over this wall. * s An annular flange 34 extends outwardly from the inner edge of the wall to the inner end of the outer drum 11, which is spaced from the bucket wheel. The flange surrounds the circumference of the inner drum 16 and is spaced therefrom, to form a passage. A hard, resilient plate 35 is mounted on the flange and is fastened in two parts by a number of screw bolts 36 so that it can be removed and replaced.

The flange 34 forms the scoop wheel Together with its covering plate 35 a:> rotating surface on which the ground material hits when it is ejected n by centrifugal force from the, outer drum, to be discharged into the bucket wheel 29th The cladding plate 35 covers the full L. width of the flange 34 from the free edge to the annular channel of the scoop wheel 29. The ■ impact surface 37, which with 'the plate 3' | is covered, the plate 35 'extends conically from the outer drum 11 in the annular channel of the wheel 29. The narrower free edge to be bevelled on the inside by a cylindrical surface and pushes in a free spacing with some play by a slight over the cylindrical Circumference of the outer drums. The narrow end of the conical impact surface 37 is stepped from the 'wider end of the conical inner surface 12 of the outer drum to the outside, so that air can enter and the friction of,. iao good entering between the two surfaces is reduced. The good hits the stepped shoulder of the ring surface .

The material thrown onto the annular surface 37 is deflected into the bucket wheel 29 and remains in the lower part of this wheel in order to be carried upwards, while the ground material in the upper part enters the wheel will fall down along with those previously promoted. The emptied in this way from the scoop bags 30 good as well as the one in the upper arch area of the bucket wheel falls into one inside attached funnel 38, which is located for the most part within the bucket wheel. The funnel extends with an arched wall along the beveled End surface 21 of the inner drum 16.

This funnel 38 opens into the

narrower end of the conical surface 19 of the inner drum 16 and has an inclined Bottom to form a chute 39 for introducing the grist. The funnel 38 is with a sleeve on the shaft 6 between the hub 17 of the drum and the flange plate 26 attached and has a flange adjacent to it. The funnel is by means of a stop 40 on the flange ring 26, which in a recess of the funnel protrudes, as shown in dotted line in Fig. 1, held in an upright position. Naturally a number of such stops 40 can also be provided, for example ·; wise a second in a position diametrically opposed to the stop 40.

With the interior of the bucket wheel 29 is a stationary collecting ring 41 with a Annular channel through the openings 33 in the plate 32 in connection. The collecting ring 41 is attached by means of a foot part 42 on the base plate ι. Between the bucket wheel 32 and the corresponding edges of the collecting channel 41 are corresponding for sealing Rings 43 and 44 are provided. The annular channel 41 has a pipe nipple at its lower end 45, to which an outlet line, not shown, can be connected.

The operation of the device is as follows.

The path of the material through the machine from the hopper to the outlet 45 is indicated generally by the direction of the arrows in FIG. The good will fed to the funnel 9 by a device not shown. The supply of the good can take place without interruption if necessary and

what through all that depend on the circumstances and conditions when the machine is running Factors is determined.

As a result of gravity, the material falls from the pouring funnel 9 into the narrower end of the outer drum 11 on the inclined surface 12 and collides with it already in rotation put good together. The supplied material is then set in rotation itself by the drum 11 and through Centrifugal force pressed against the inclined surface 12. When the good on the spinning Surface 12 moves towards the wider end, then its speed increases, while at the same time the centrifugal force acting on it increases.

The material becomes relative on its migration as a result of the grinding action through which it is located rubbed together moving parts.

The drum 11 can be of any desired type Speed can be set in rotation, but this is due to their diameter, the required capacity, depends on the nature of the goods and the required end product. The turn the drum 11 can in certain cases be very slow while they in other cases it is very high. For example, and perhaps in most cases, this is The number of revolutions in the machine shown in the drawings is approximately 2000 revolutions. The drum 11 can also rotate in any desired direction be offset, for example, in the drawings by arrows clockwise is indicated and this from FIG. 1 when viewed from the right and directly from FIG. 2 and 3 can be seen. While the direction of rotation of the drum 11 is its own. lent effect does not influence, it does influence the result, which in the context is achieved with other machine parts, as explained more clearly below is.

The material, which moves forward in a ring-shaped layer, is carried by the Centrifugal force from the wider end of the inclined annular surface 12 of the itself rotating drum 11 against the annular surface 37 with a crushing impact hurled. The force of this impact can be monitored within wide limits. It depends on the speed of the drum Ii. The force doesn't just hang on the speed of rotation of the drum 11 but also on the direction of rotation compared to the direction of rotation of the ring 34. So when the drum 11 is in the opposite Direction to the ring 34 is rotated, then the force of the impact is accordingly be greater than if the rotation took place in the same direction as it is indicated in the drawings.

The impacting material is guided from the impact surface 37 into the bucket wheel 29 and From here it falls into the inner funnel 38, from which, as a result of the force of gravity, it falls into the more visual part

The end of the rotating inner drum 16 reaches the inclined inner surface 19. the Gravity conveyance is particularly effective with larger or coarser piece goods. The effect of the inner drum 16 on the material is essentially the same as that of the outer drum 11. The supplied material collides in the drum with the previously introduced material rotating therein.

If the material is now set in rotation by the drum 16, the shift calls the good under itself a trituration.

The inner drum 16 can by itself independently in any desired direction and driven at any speed. The direction of rotation is for the effect of the drum itself insignificant, but direction and speed of rotation together result in a huge difference in effect and result in terms of direction of rotation and speed of the outer drum 11, as will be clearly explained later. In the drawings is the direction of rotation of the inner drum 16 is opposite to that of the outer Drum 11 specified. Under normal circumstances the number of revolutions is the inner drum 16 z. In the machine shown in the drawings 3000 revolutions.

The good, especially the coarser and larger pieces, is made by centrifugal force from the wider end of the inclined surface 19 in an annular stream in tangential Hurled away in direction. The freely moving good hits with a larger or lesser violence on that already located in the outer drum r 1 and on the in opposite direction inclined surface 12 in one direction or the other in rotation relocated Gut. The speed of the throwing off and the resultant Impact depends largely on the relative speed of movement between the two drums 11 and 16.

When these two drums move in opposite directions, as in is indicated in the drawings, then pushes the moving in opposite directions Good close to each other. The force of the impact of the colliding in this way Good things will be enormous at relatively high speeds. On the other hand, the The force of the bumping into itself in the same direction and with approximately the same circumferential speed rotating drums are negligible except for the radial centrifugal pressure be.

All of the goods originally located within the first or outer drum 11 together with the one fed in from the second or inner drum 16 now travels to «5 the wider end of the conical surface 12 of the first drum in the annular Channel, which between this surface 12 and the similar slope extending circumferential surface 20 of the inner drum 16 is formed. When the drum 11 and 16 circulate at different speeds, especially in the opposite direction, then of course there will be a large vortex in the grist flow, in which the pieces often meet and collide. The good, especially the one large and coarser pieces, is caused by centrifugal force in a freely moving ring- ' shaped current thrown against the annular surface 37, from which it after the impact in the Bucket wheel 29 is derived.

That part of the goods which is returned from the inner drum 16 into the outer drum n was, performs a closed cycle in the machine. The same good can be repeated in this way wander through the closed circuit countless times until it becomes the desired one Fineness is crushed.

The sufficiently comminuted material is discharged through the outlet 45.

When carrying out a dry comminution, all the material which has reached the necessary fineness somewhere in the machine is separated out and drawn off from the machine through the outlet opening 45 by means of a suction wind generated by a device (not shown). The suction effect is distributed over the circumference of the machine through the annular too collecting channel 41 by means of the openings 33 reaching into the bucket wheel 29. The strength of the. the machine continuous secretion of the ^v Good causing draft is monitored, wherein the various operating conditions and the desired final product are taken into account.

In wet operation, a stream of water is passed through the machine. It is desirable that here the normal water level in the machine is somewhat, but sufficiently above the the lower edge of the lowermost opening 33 is sufficient, and the bottom of the outlet opening 45 causes a free outflow, as in Fig. 1 of the Drawings is indicated. Except through gravity or together with it, the Flow of sight water generated by the machine by a device not shown will. The solid goods can flow out of the lao from the machine and the finer ones Well distributed with water that flows through it

by a device, also not shown, e.g. B. by thickening, excreted will.

To operate the machine can be a corresponding amount of hard, the crushing and bodies which promote attrition, like hard metal balls, are introduced into the machine in order to mix with the material and with it continuously through ίο the closed circuit of the machine hike.

The size of the fresh product fed to the machine is insignificant as long as it is free can wander in the machine. The maize machine can of course be used to shred larger pieces are made correspondingly larger.

In the machine shown in the drawings, regrind, such as hard Granite, easily crushed into a fine powder. -Also that crumbles more easily Good, such as fine-grained or coarser coal, can be made up quickly and easily be ground a coal dust, the example, passes through a No. 30 sieve. Different types of material fed to the machine at the same time can also be shredded and mixed at the same time. Let the area as well as the type of regulation the machine can also appear useful as a mixer on its own. The machine is simpler Execution, so that it can be made cheaply from the appropriate material, lets put. .

Claims (7)

Patent claims: i. Revolving around a horizontal axis Device for ■ crushing ground material on the inner surface of two opposite, driven hollow cones of various sizes and opposite Slope, of which the smaller hollow cone with its exit end in the larger hollow cone protrudes and the grist hurls on its inner surface, thereby characterized in that the large hollow cone is on the side of the small hollow cone diameter is equipped with a feed device for the fresh produce "and that Grist to one on the side of the small hollow cone diameter of the small grinding cone leads to its loading arranged feeding device. 2. Machine according to claim 1, characterized in that the angle of inclination of the inner surface of one or both hollow cones (11, 16) is less than 45 ^° . 3. Device according to claim x, characterized by separate drives (15, 22A) to be actuated in each direction of rotation for each hollow cone. 4. Apparatus according to claim 1, characterized by a separately driven Bucket wheel (29) as a feed device for the small hollow cone (r6). 5. Device according to claims 1 and 4, characterized in that one the discharge end of the large hollow cone surrounding the throwing surface (34) is attached to the bucket wheel and from the Hollow cone guides the regrind emerging into the bucket wheel. 6. Apparatus according to claim 4, characterized in that the bucket wheel (29) is closed with a plate on the side facing away from the hollow cones, in which coincides with an adjacent fixed collecting channel (41) Openings (33) are provided for discharging the shredded material. 7. Device according to claims 1 and 4, characterized in that the small hollow cone (16) on its outer surface from the wide to the narrow end conical according to the course of the inner surface (12) of the large hollow cone (11) executed and on the resulting wide end face (21) accordingly the wall of a stationary in the shipwheel, leading to the application point of the small hollow cone Funnel (38) is beveled. 1 sheet of drawings