DE19904196C1 - Bulk dryer - Google Patents

Abstract

The dryer has a base plate (1) for supporting a bulk layer (2) of a predetermined thickness. The bulk material layer is moved through at least one infrared radiator (3) by vibrating the base plate. The base plate (1), which consists of a thermally conductive material, carries thermally conductive elevations (4, 5), the height of which exceeds the thickness of the bulk material layer (2). They introduce heat into the base plate by heat conduction, so that the bulk material layer is heated from above by radiation and from below by heat conduction. This shortens the drying time.

Description

The invention relates to a dryer for bulk goods

• - A conveyor that has at least one area Element for carrying and transporting a layer of bulk material has a predetermined thickness, and
• - At least one above the flat element of the Conveyor device arranged infrared heaters to behei zen of the bulk layer.

With many drying processes (for example with the Drying sludge on a conveyor belt under infrared Irradiation, see US 5 233 763) one strives to heat as quickly as possible into the material to be dried to speed up the drying process. This also applies to the IR drying of bulk goods, which by worn the flat element of the conveyor and is transported.

The invention has for its object the heat improve the bulk.

To solve this problem, the above is Dryer according to the invention characterized in that the flat element of the conveyor made of thermally conductive Material exists and ver with heat conductive elevations can be seen, the height of which depends on the thickness of the bulk layer is adjusted.

The height of the surveys is chosen so that the height exercises at best slightly and / or intermittently by be swept over the bulk material. Preferably protrude Elevations continuously from the bulk layer. The Surveys are therefore exposed to IR radiation. she warm up and conduct the heat into the flat element the conveyor. This causes the wan bulk layer is heated on both sides, namely by  above by the IR radiation and from below by the flat Element of the conveyor, so there by heat conduction  within the flat element and contact heat transfer to bulk goods. It happens to be very even and all things very rapid heating of the bulk layer. The drying time is considerably reduced Episode.

Bulk goods can have different product properties have, for example with regard to abrasion, Tendency to crust and corrosion. Therefore, in Next Education of the invention proposed that the surveys Shape and arrangement of the product properties of the bulk material tes are adapted, with one and the same flat element the funding agency with surveys of different for Men and arrangements can be provided.

Basically, all conceivable shapes come in Question, for example vertical or inclined columns, pyra miden, truncated pyramids, spherical segments, tetrahedra, prisms, Truncated cones and the like. It is essential that Erhe exercises besides influencing the bulk transport of the IR radiation provide a sufficient area to the ge desired heat input into the flat element of the conveyor to ensure establishment.

Of importance in influencing the transport of the Bulk goods are their rearrangement. Under that face point can add to the product properties of the bulk goods the shape of the elevations through their arrangement be worn. Alignment is possible as well staggered arrangement, triangular or square arrangement or also arbitrary spread.

According to a further advantageous feature, at least one of the elevations as in the direction of transport of the bulk material rising ramp formed, which preferably over the full width of the flat element as a vibration conveyor trained conveyor extends. At the Exceeding the ramp leads to a particularly intense ven rearrangement of the bulk material.  

The flat element of the conveyor also forms the surveys a system of product-covered and beamed surfaces, the ratio being product covers / illuminates preferably to the product properties of the bulk material and adapted to the dryer performance. This ratio determines the ratio in an optimized manner nis radiation / contact heat transfer when heating the Bulk goods.

They are illuminated to optimize the heat input black areas not covered by the bulk material.

The invention is basically applicable to all Conveyors made up of a flat element thermally conductive material for carrying and transporting the Dispose of bulk goods. These include, for example, band conveyor those with a flexible conveyor belt on which the surveys can be retrofitted.

Vibation promoters that are vi easy-to-use base plate and an associated vibra tion drive. The base plate is preferably made made of metal, the elevations on the base plate can be welded. This type of attachment becomes one especially if the surveys choose what is special can be advantageous, are solid, for example wise as pillars. In other cases it can be more beneficial be the elevations from the material of the base plate elaborate, for example by deep drawing.

The Erfin suggests another preferred alternative the use of an apron conveyor. The one with the Base plate of the vibratory conveyor related advantages can be used equally with the individual plates of the Achieve plate conveyor.

The invention is based on preferred Aus management examples in connection with the enclosed Drawing explained in more detail. The drawing shows in:

Figure 1 is a schematic vertical section through a first embodiment.

Fig. 2 is a plan view of the embodiment of Fig. 1;

Fig. 3 shows a schematic vertical section through a second embodiment;

Fig. 4 is a plan view of the embodiment of FIG. 3.

According to Fig. 1 and 2, the dryer a conveyor in the form of a vibrating conveyor, whose sur fa chiges element is det ausgebil as a vibratable base plate 1 which carries a layer of bulk material 2 of vorgebener thickness. If a vibration drive, not shown, sets the base plate 1 in vibrations, the bulk material is shaken and in the process is transported from left to right in FIG. 1. The bulk layer is heated by an IR radiator 3 .

An elevation 4 in the form of a ramp is provided on the base plate 1 and, as can be seen in FIG. 2, extends over the entire width of the base plate 1 . The ramp ensures an intensive relocation of the bulk material. It consists of metal and is welded onto the base plate 1, which is also made of metal. As can be seen from FIG. 1, the height of the ramp slightly exceeds the thickness of the bulk material layer 2 . The upper area of the ramp surface is, at least temporarily covered by a slight layer of bulk material, exposed to the IR radiation of the radiator 3 . The same applies to the downstream face of the ramp. So the ramp works as a converter. It heats up and conducts the heat into the base plate 1 . As a result, the bulk material is heated on both sides, both by radiation and by heat conduction. The heating takes place very evenly and quickly, so that short drying times can be used.

The base plate 1 according to FIGS. 1 and 2 is provided with further elevations 5 , which are designed as bolt-shaped columns with a circular cross section and protrude a good deal from the bulk material layer 2 . You are just welded to the base plate 1 . The columns work equally as a converter and introduce heat into the base plate 1 . The heat input via the columns is greater than that via the ramp, since the column surfaces protruding from the bulk layer 2 are constantly exposed to IR radiation. Figs. 1 and 2 show only some columns of a downstream row of columns. Further rows of columns follow, in a staggered arrangement. Columns with a polygonal cross section are also conceivable. The areas exposed to IR radiation are black.

In the embodiment according to FIGS. 3 and 4, elevations 6 in the form of truncated pyramids are arranged on the base plate 1 . These are evidently able to enter comparatively large amounts of heat into the base plate 1 by conduction.

Incidentally, Fig. 3 shows that the elevation 6 is different from the raised portions 4 and 5 not with the base plate 1 ver welded, but has been machined by deep drawing from the material of the base plate.

The elevations 4 , 5 and 6 represent only a few examples from the possible large number of shapes. The possibilities for arranging the elevations relative to one another are equally varied. The drying process can be optimized by appropriate selection, ie by adaptation to the product properties of the bulk material and the dryer performance.

As mentioned at the beginning, the applicability is limited the invention does not apply to such dryers whose transport direction is trained as a vibration conveyor. Slat conveyor Conveyors are equally suitable, the design of the individual plates, the base plates of the shown and explained vibration conveyor can correspond. Further the advantages according to the invention can be achieved with such a tape achieve conveyors using a flexible conveyor belt have, but with the proviso that the survey  afterwards with the flexible band made of steel mesh or the like must be connected.

Claims (11)

1. dryer for bulk goods with

• - A conveying device which has at least one flat element for carrying and transporting a layer of bulk material ( 2 ) of predetermined thickness, and
• - at least one infrared radiator ( 3 ) arranged above the flat element of the conveying device for heating the bulk material layer ( 2 ),

characterized in that the flat element of the conveyor consists of thermally conductive material and is provided with thermally conductive elevations ( 4 , 5 , 6 ), the height of which is adapted to the thickness of the bulk material layer ( 2 ). 2. Dryer according to claim 1, characterized in that the height of the elevations ( 4 , 5 , 6 ) exceeds the thickness of the bulk material layer ( 2 ). 3. Dryer according to claim 1 or 2, characterized in that the elevations ( 4 , 5 , 6 ) are adapted in shape and arrangement to the product properties of the bulk material. 4. Dryer according to one of claims 1 to 3, characterized in that the flat element of the Fördereinrich device with elevations ( 4 , 5 , 6 ) is provided with different shapes and arrangements. 5. Dryer according to one of claims 1 to 4, characterized in that the flat element of the Fördereinrich device with the elevations ( 4 , 5 , 6 ) forms a system of produktbe covered and illuminated surfaces, the ratio nis product-covered / illuminated to the Product properties of the bulk material and adapted to the dryer performance. 6. Dryer according to one of claims 1 to 5, characterized characterized in that the illuminated surfaces are black. 7. Dryer according to one of claims 1 to 6, characterized in that the conveying device has a vibration-capable base plate ( 1 ) with associated vibration drive. 8. Dryer according to claim 7, characterized in that at least one ( 4 ) of the elevations ( 4 , 5 , 6 ) is designed as a ramp in the trans port direction of the bulk material. 9. Dryer according to claim 8, characterized in that the ramp extends across the full width of the flat element the conveyor extends. 10. Dryer according to one of claims 1 to 6, characterized characterized in that the conveyor as a plate belt is trained. 11. Dryer according to one of claims 7 to 10, characterized in that the elevations ( 6 ) are worked out from the material of the flat element.