DE3021490C2 - Method and device for preparing mixtures of sand bulbs - Google Patents

Description

The invention relates to a method for processing Mixtures of sand lumps, especially foundry sand lumps, by crushing them into sand with vibration and a subsequent sifting of fine and oversized grains after separating it from the tubers or the like, conveying on an inclined path - possibly upward conveying - by vibrations A device for processing such mixtures of sand bulbs comprises a device that can be set in vibration Chamber, soft at least one coarse sieve serving to separate the sand from the lumps or the like - For example, an inclined hole wall of a breaking pot - has, according to which that sand one another sieve is fed to the sieving of fine and oversized grains.

In the recovery of foundry sand lumps, efforts are made to prepare the sand lump mixture that arises when emptying the poured molding boxes into reusable molding sand .., for which various operations are required . The tubers are first crushed to the size of a grain of sand, then foreign bodies such as iron parts, paper or the like are separated from the sand and the remaining oversized grains are sieved off before the sand, which has meanwhile been dedusted, can be cooled.

Different units are known for each processing step, depending on the respective requirements be put together. For example, vibration crushers serve as a shredding device double-walled container, which is caused to vibrate by unbalance motors or unbalance shafts will. In the container, the lumps of sand are opened up by its movement and made to the size of a grain of sand grated. The resulting fine particles are pushed through the perforated inner wall of the container and fed to a sieve which separates fine and oversized grains.

Together with the sand, the dust that has accumulated up to that point - especially the destroyed grain and binder residues - becomes one The separator is transported, followed by cooling.

Known methods and devices suitable for them In particular, there are the following disadvantages. The dusty sand is after the also swaying Sieve merged and is thereby the compressing influences of a vibrating Exposed collection bottom. Grains of dust and sand come close together so that the particles agglomerate. The results of the subsequent shaping are hereby considerably worsened. In addition, they are required the separate sifter installation space, which is why the systems described are preferably set up in pits , the production of which in turn is quite expensive, since great pit depths are required. About that In addition, the foreign bodies can not be fully automated be outstanding. A particular disadvantage is that the sand is separate from the rest Processing process must be cooled.

A method and a device of the type mentioned is disclosed in DE-OS 25 19 328 with reference to a swing-mounted breaker pot with an inclined side wall, on which the sand lump mixture is guided by the vibrations upwards to some holes; these holes separate the flowing through Sand from remaining tubers. The sand slides down from the holes to an i. w. horizontal Sieve where the separation into fine grain that falls through and oversize grain to be requested on the sieve surface happens.

The inventor has set himself the goal of a process and a device of this type avoiding the detected To improve deficiency. In particular, it should now be possible with a low overall height in one Device for crushing, separating and cooling. and remove foreign bodies fully automatically.

The method according to the invention leads to the solution of this object if the sand is used when it is carried out while conveying through the sieving in fine and Oversized grain separated and the fine grain on a separate fine grain track by heat exchange from one flowing cooling medium, preferably cooling water, cooled and optionally before impact on the cooling fine grain path through at least one traversing the falling path of the fine grain Air flow is dedusted. In a particularly preferred one According to the invention, the sand is vibrated upwards on the inclined path promoted, - an upward promotion of the sand lump mixture is known per se from DE-OS 25 19 328. It has also proven advantageous to use the sand before the entry into the inclined track (s) by sieving foreign matter such as iron or the like and separating the latter automatically discharged by gravity.

Thanks to these stipulations, it is now possible to set the pile feed height roughly in the form of loose sand and oversize grain discharge to install and thereby avoid greater pit depths. In addition, the leaves Sand sifted, dedusted and cooled by the processing device, eliminating the need for intermediate transports.

The inventive device of the type mentioned is characterized in that the chamber at least two superposed spiral bottoms are assigned, of which at least the upper one partially designed as a sieve and the lower one is provided along a flow channel for a cooling medium is. In this case, the upper spiral base should at its lower end with the chamber discharge or one of the Be connected to the toe plate downstream of the coarse sieve.

According to a further feature of the invention, the oversize grain discharge of the upper spiral base is and / or the fine grain discharge of the lower spiral base is provided at the upper end of the respective spiral base; Preferably, both are located approximately at the level of the loading opening for the breaker pot, in the the debris to be crushed is brought in from above.

In order to facilitate the cooling of the sand to be reused, the lower spiral base is according to the invention formed from at least two spaced apart webs of material, between which at least one coolant channel runs; the latter is therefore an integral part of the lower spiral band for the part of the material that goes to the fine grain discharge. The surface has proven to be beneficial the upper web of material, on which the fine sand rests, by lamellae, ribs, or the appropriate To enlarge lofts.

It is also within the scope of the invention that the one located between the upper and lower spiral base The lower spiral path is traversed by transverse air, which enables the dust to be removed from the sand. These Transverse air penetrates from the breaker pot through openings into the lower spiral path and leaves it through the opposite one Openings which have at least one dust collecting device, for example a coiled one Channel, is switched on.

In a particularly favorable embodiment of the device, the breaking pot has a hole wall side screen wall that delimits a conically tapering interior space and with side walls one - surrounding the breaker pot - housing a container between this breaker pot and - from the spiral bottoms limited downwards - forms spiral tracks, which through a discharge to the Upper spiral track is connected below. The container should be limited at the bottom by a footplate which is connected to the discharge or is connected upstream of it.

The helical paths advantageously run between the housing wall and a spaced apart from it.

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outside wall, which together in a preferred embodiment, produce an annular space within which the helical paths are provided.

It is of particular importance for the invention that foreign parts are discharged downwards from the breaker pot thanks to a movable Brechtopfboden, which down from the sieve walls of the Brechtopfeb is released and then releases the burdening foreign parts to a foreign part discharge. Such a lowerable floor part can advantageously be controlled fully automatically.

The device according to the invention makes it possible, with a very low overall height, to sift the debris, as well as dedusting and cooling, whereby all intermediate transports, which were previously necessary, are omitted.

Further advantages, features and details of the invention emerge from the following description of a preferred exemplary embodiment as well as with reference to the drawing, the single figure of which shows a semi-structured cross section through the device A according to the invention

The device A for crushing sand lumps of a mixture of used sand and lumps // has a housing

I with hollow rubber springs as buffer legs 2, in its Center axis M between a housing base 3 and one to the base part 4 in the housing 1 centric provided breaking pot 5, a bellows cylinder 6 is arranged.

The bottom part 4, which is inclined from the central axis M to the housing walls 7 at an angle w and which is connected to that bellows cylinder 6 by means of a connecting piece 8, is supplemented by an inclined screen wall 9 to the upwardly open breaking pot 5, which has an outer collar 10 rests on a support strip 11 of the housing wall 7

A feed hopper 13 protrudes into the ridge opening 12 of the crushing pot 5, via which that pile H is fed into the interior 14 of the crushing pot 5.

The housing wall 7 and the support strip on its

II suspended sieve wall 9 of the breaking pot 5 delimit an annular housing space 15 which is closed at the bottom by a footplate 16 of the housing 1 that is approximately parallel to the adjacent bottom part 4; the toe board 16 untergreifi an outer Rragsteg 17 of the eo refractive pot. 5

At a distance ρ from the vertical housing wall 7, this surrounds an outer wall 20. Between the two walls 7, 20, two spiral bottoms 21b and 23 extend at a distance h above one another, each of which delimits two spiral tracks 22 and 24 of rectangular cross-section at the bottom. In the drawing, the inclined course of the spiral bottoms 21, 23 is indicated by the contours 25

The upper spiral base 21 consists in parts or as a whole of wedge wire screens 26, whereas the lower one Wendelboden 23 is closed. The latter points thanks to two at a distance / assigned to each other Bottom plates 27, 28 have a channel 29 for cooling water. From the upper floor panel 27 protrude for enlargement its surface facing the spiral track 24 has ribs or lamellae 30.

The sand-lump mixture H is crushed in the crushing pot 5 by the superimposed vertical and horizontal oscillating movement generated by vibration motors 40 and falls through discharge slots 31 of the crushing pot 5 over the footplate or the collecting apron 16 into the upper spiral path 22 of the double-barreled spiral 22 , 24. In this, the largely shredded output heap H - due to the nature of the oscillating movement - is transported upwards.

The fine-grained sand S falls through the slotted sieves 26 of the upper spiral base 21 into the lower spiral path 24 and while it falls it crosses cross-flowing air (arrows x), which draws from openings 33 in the housing wall 7 to intake slots 34 of an externally attached dedusting channel 35.

The sand S reaching the lower spiral base 24 is, after the described cleaning of dust particles, cooled by the cooling water to processing temperature and discharged upwards at 36 as good sand. Oversized grain remaining on the upper spiral base 21 reaches the oversized grain discharge 37.

Iron and other foreign parts that remain in the breaking pot 5, can be lowered via it - thanks to the bellows cylinder 6 acted upon by compressed air at 38 Bottom part 4 can be discharged fully automatically via a foreign part chute 39.

1 sheet of drawings

Claims (22)

Patent claims: 1. Process for processing sand lump mixtures, in particular foundry sand lumps, by crushing into sand with vibration and one following its separation from the tubers Sieving of fine and oversized grain, with conveyance on an inclined track by vibrations takes place, characterized in that the sand during the conveyance by sieving separated into fine and oversized grain and the fine grain on a separate fine grain track through heat exchange is cooled by a flowing cooling medium. 2. The method according to claim 1, characterized in that the sand during the screening is promoted upwards by the vibrations in a manner known per se. 3. The method according to claim 1 or 2, characterized in that the fine grain before impact on the cooling fine grain path through at least one air stream crossing the falling path of the fine grain is dedusted. 4. The method according to any one of claims 1 to 3, characterized in that the sand before entry is separated into the inclined track / s by sieving foreign matter, such as iron or the like, and the latter are automatically discharged by gravity. 5. Device for processing sand lump mixtures, in particular foundry sand lumps, by crushing into sand with vibration and one following its separation from the tubers Sieving of fine and oversized grain, with conveyance on an inclined track by vibrations takes place, with a vibratory chamber, which at least one of the separation of the Coarse sieve serving sand from the tubers, for example an inclined hole wall of a Brechopfes, has, after that sand another sieve for sieving fine and oversized grain is fed, characterized in that the chamber is attached at least two one above the other Spiral bottoms (21, 23) are assigned, of which the upper at least partially as a sieve (26) and the lower one is provided along a flow channel (29) for a cooling medium is. 6. Apparatus according to claim 5, characterized in that the upper spiral base (21) at his lower end (31) with the chamber discharge (31) or a footplate connected downstream of the coarse sieve (9) (16) is connected. 7. Apparatus according to claim 5 or 6, characterized in that the oversize grain discharge (37) of the upper spiral base (21) and / or the fine grain discharge (36) of the lower spiral base (23) at the top End of the spiral base is provided. 8. Apparatus according to claim 5 and 7 with a chamber charged from above, characterized in that that the discharge (36 or 37) for the fine grain and / or for the oversize grain in the area of the feed opening (12) is provided for the breaker pot (5). 9. The device according to at least one of claims 5 to 8, characterized in that the lower spiral base (23) consists of at least two material webs extending at a distance (i) from one another, between which at least one coolant channel (29) is provided 10. The device according to at least one of claims 5 to 9, characterized in that the Upper material web (27) has a surface enlarged by ribs, lamellas (30) or the like. 11. The device according to at least one of claims 5 to 10, characterized in that between the lower and upper spiral base (23, 21) runs parallel to its cross section at least one flow path for blown air (x) or a corresponding medium 12. Apparatus according to claim 10 or 11, characterized in that the flow path for the air (x) or the like opens into a dust removal path (35) 13. The device according to at least one of claims 5 to 12, characterized in that the Perforated wall of the crushing pot (5) has an annular screen wall (9) with a conically tapering downward Interior (14) is. 14. The device according to at least one of claims 5 to 12, characterized in that the inclined sieve wall (9) of the breaking pot (5) with side walls (7) of a housing (t) a container (15) between the Brechtopf and from the spiral floors (21, 23) downwardly limited spiral tracks (22, 24) which is connected to the upper spiral track (23) through the chamber discharge (16). 15. The apparatus of claim fc> and 14, characterized characterized in that the container (15) is delimited at the bottom by a footplate (16). 16. The device according to at least one of claims 5 to 15, characterized in that at least one further wall (20) is arranged at a distance (p) from the side wall (7) towards the outside and the helical paths (22, 24) run between these walls . 17. Device according to one of claims 11 to 16, characterized in that recesses (3) for the air are provided in the container wall (7) are, which open into the lower spiral track (24). 18. Device according to one of claims 11 to 17, characterized in that the mouth openings (24) for the flow paths of the air are provided in the outer wall (20), the dust removal path (35) extends outside the outer wall (20). 19. The device according to at least one of claims 5 to 18, characterized in that the Perforated wall (9) of the breaking pot (5) is suspended in the housing (1) and the breaking pot base (4) is detachable is fixed on the perforated wall. 20. The device according to claim 19, characterized in that the Brechtopfboden (4) between the fracture pot interior (14) and at least one foreign part discharge (39) is movably attached. 21. Apparatus according to claim 19 or 20, characterized in that the Brechtopfopf (4) seated on a bellows support (6) that can be acted upon by air. 22. Device according to one of claims 19 to 21, characterized in that the movement of the Brechtopfboden (4) is automatically controllable.