DE1629044A1 - Rotary drum for the heat treatment, especially cooling, of pourable goods - Google Patents

Description

Rotary drum for WKrmebehandlung, and in particular cooling of pourable rotary drums for the heat treatment, for example cooling of pourable material are committed in various embodiments. In the context of sand processing, in particular, there are those that consist of essentially cylindrical or conical around its mostly horizontal or slightly geeelte axis, rotatable drum shell with running rings and built-in heat exchange elements through which a heat exchange medium flows pourable material. Special requirements are placed on the heat exchange elements in terms of heat exchange technology, but also in terms of wear and tear. On the one hand, in the rotary drums are accommodated a relatively large heat austausohfläche, on the other hand it must be possible uniformly by the flowing Gut.beaufsohlagt, which is intended to undergo a Durchmisohung simultaneously. As a result of the support of the heat exchange elements with pourable material, these elements are erheblick subject to wear and tear. - In known rotary drums for heat treatment, in particular cooling of pourable material, the heat exchange elements are special constructions, which is expensive. In addition, the rotary drums or the heat exchange elements can often be improved in terms of heat exchange technology, in particular with regard to the heat exchange efficiency. The invention is based on the object of creating a rotary drum for the heat treatment of pourable material, which is equipped with simple heat exchange elements compared to the known, and nevertheless meets optimal requirements in terms of heat exchange technology and wear. The invention relates to a rotary drum for the heat treatment, in particular cooling of pourable material, preferably a rotary drum to be used in the context of sand processing, consisting of a substantially cylindrical or conical drum shell rotatable about its axis with running rings and built-in, through which a heat exchange medium flows; During the rotation of the rotary drum, the heat exchange elements acted upon by the pourable material. The invention consists in that the heat exchange elements are designed as ribbed radiators customary in heating technology, preferably ribbed radiators made of cast iron. - The invention uses the fact that the ribbed radiators customary in heating technology have large heat exchange surfaces in a small volume and are available cheaply as commercially available units. By using such ribbed radiators in rotary drums, a large amount of heat exchange can easily be accommodated in the rotary drums. Thereby, a uniform loading of the rib radiators and their heat exchange surfaces ensure with pourable material, according to the preferred embodiment of the invention is met, the arrangement is such that the individual ribs radiators are fitted with essentially Sekantalenverteiler- or collector channels in the rotary drum, so that, cross-sectionally considered, form polygons, as it were. This also has advantages in terms of assembly technology, since in this case the drum shell can be provided with brackets on the inside to which the ribbed radiators can be attached Further training and improvement of the measures already described, the arrangement so that the ribbed radiators combined to form polygons form radiator batteries connected in parallel with regard to the heat exchange medium supply and discharge, and the individual rib radiators in the radiator batteries with regard to the heat exchange medium supply and discharge as well. connected in parallel, are. The invention is of course not restricted to the fact that the individual rib radiators are combined to form polygons or that the heat exchange medium supply and discharge is carried out in the manner described. Rather, it is possible to have the ribbed radiators protrude into the interior of the rotating drum as lifting blades or to implement other forms of installation, as are customary in terms of orientation for the heat exchange elements in rotating drums. The advantages achieved by the invention are primarily to be seen in the fact that, in the case of the rotary drum according to the invention, the heat exchange elements can be produced in the simplest possible way, since commercially available ribbed radiators are used. In particular, if these are made of gray cast iron or cast steel, they can withstand all wear and tear that occur, for example, in the course of sand processing. Nevertheless, should wear have occurred, the fin radiators can be replaced easily and cheaply. In terms of heat exchange technology, it is advantageous that not only large heat exchange surfaces can be accommodated inside the rotary drum, but that, especially in the embodiment in which the rib radiators are combined to form polygons, the space between the individual ribs must be trickled through by the free-flowing material, so that the heat exchange surfaces always offer only a relatively small volume of pourable material. This improves the efficiency, at the same time there is an intensive mixing of the pourable material. In this embodiment, the rib radiators also work as lifting blades at the same time, but they can also be arranged in a different way for this purpose. The number of ribs of the rib refiators and the spacing of the ribs can be selected differently in order to adapt the rotary drum according to the invention to different heat treatment tasks. In the following the invention is explained in more detail with reference to a drawing showing only one embodiment; 1 shows a cross section through a rotary drum according to the invention, FIG. 2 shows a longitudinal section through the object according to FIG. 1, FIG. 3 shows a section from the object according to FIG. 1 and 4 show a ribbed radiator from the rotary drum according to the invention. The rotating drum shown in the figures is for the heat treatment, in particular cooling, of pourable material, for example. wisely determined in the framework of sand processing. It consists in its basic structure of a cylindrical drum shell 2 rotatable about its essentially horizontal axis l with running rings 3, which runs on corresponding rollers 4 and built-in heat exchange elements 5 through which a heat exchange medium flows Heat exchange elements 5 acted upon by the pourable material.

According to the invention, the heat exchange elements 5 are designed as ribbed radiators customary in heating technology, which preferably consist of good iron or steel. In FIG. 4, such a ribbed radiator 5 is shown in detail. According to a preferred embodiment of the invention and consequently also in the exemplary embodiment, the individual ribbed radiators 5 are built into the rotary drum with essentially second distributor or collector channels 6, so that the cross sections are combined to form polygons. Deo can be seen in particular in Figures 1 and 3, where hexagonal polygonal lines are realized. In this case, the assembly of the ribbed radiators 5 in the drum shell 2 is also simple. As can be seen in FIG. 3, the drum shell 1 has brackets on the inside .7 to which the ribbed radiators 5 are attached .

From Figure 2, it removes that zweokmäßigerweise of heat-technical reasons, to polygons summarized ribs radiators 5 with respect to the Wärmeaustausohmittelzu- and abftihrung parallel radiator batteries form, while in the radiator batteries ribs radiators 5 with respect to the Wrrmeaustausohmittelzu- and-abfUhrung.8 , 9 are also connected in parallel. The ribbed radiators 5 can also protrude into the interior of the drum as lifting blades, which has not been shown in detail in the figures.

The drizzle material is in the rotary drum shown in the figures fed in the direction of arrow 10 and leaves the rotary drum in the direction of Arrow 11. In addition, the flow of the heat exchange medium is indicated by arrows in Pipeline system 6 has been clarified.

Claims (6)

An s p r ü c h e @ 1) Rotary drum for heat treatment, e.g. B. Cooling, of free-flowing material, especially in the context of sand processing, consisting of drum shell rotatable around its axis with races and built-in one Heat exchange medium flowed through, with the rotation of the rotary drum of the free-flowing Well acted upon heat exchange elements, 'characterized in that the heat exchange elements are designed as ribbed radiators (5) that are customary in heating technology. 2. Rotary drum according to claim 1, characterized in that the ribbed radiators (5) are made of cast iron or cast steel. 3. Rotary drum according to claims 1 and 2, characterized in that that the individual ribbed radiators (5) with essentially secantal distributors or collector channels (6) built into the rotary drum and in cross-section to form polygonal pulls are summarized. 4 ,. Rotary drum according to Claims 1 to 3, characterized in that that the drum shell (2) has brackets (7) on the inside, and on it the ribbed radiators (5) are attached .. - 5. Rotary drum according to claims 1 to 4, characterized in that that the ribbed radiators (5) combined to form polygons in relation to the heat exchange medium and discharge (8, 9) form radiator batteries connected in parallel and in the Radiator batteries the finned radiators (5) in relation to the heat exchange medium and discharge (8, 9) are also connected in parallel. 6. Rotary drum after the Claims 1 to 5, characterized in that the ribbed radiators (5) as Lifting shovels, are arranged for the pourable material.