EP2124006A2 - Apparatus for treating, in particular for drying, bulk goods - Google Patents

Abstract

A holding device (2) for bulk materials has multiple conditioning containers (4) on a conveyor belt (5) on a belt feeder. A flow generator (3) fits so as to be stationary on the conveyor belt and has inflow (7) and outflow (8) openings assigned to the conditioning containers as well as its air-inlet boxes (9) bordering its inflow openings and its air-outflow boxes (10) bordering its outflow openings.

Description

The invention relates to a device for the treatment, in particular for the drying of bulk materials with at least one bulk material receiving and a bulk material receiving associated flow generator.

In such devices, the bulk material is exposed to a conditioning agent which is set in motion with the flow generator. The conditioning agent is a suitable for the respective treatment process to be performed fluid, the provision and / or preparation of which takes place via ancillaries, which are components of the known devices. Depending on the type of treatment, the conditioning agent, preferably air, may be mixed with various additives. For the performance-oriented industrial treatment of bulk materials preferably continuous devices are used, which are designed for example as a steam or drum dryer, fluidized bed dryer, belt dryer or current dryer. With the exception of the current dryer, the known devices produce disadvantageous high Fehlausträge at the beginning and at the end of the removal of the bulk material from the bulk material intake. However, compared to the other known devices, power dryers require a large amount of space and therefore disadvantageously high investment and operating costs. In addition, the mechanical load caused by discharge via cyclones in current dryers leads to damage to the bulk material. The treatment of fibrous bulk materials, in particular Schnitttabaken is particularly problematic, since with steam or Drummeltrocknem no sufficient control characteristics can be realized, the fibrous bulk material in fluidized bed dryers for nests and in belt driers for the formation of countercurrents tends.

The invention has for its object to provide a device of the type mentioned, are minimized with the Fehlausträge, and which is nevertheless suitable for a particularly gentle and cost-effective treatment of bulk materials.

This object is achieved by a device having the features of the protection claim 1. Advantageous developments of the invention are specified in the subclaims 2 to 19.

The device according to the invention is characterized in that the bulk material receiving has a plurality of conditioning containers, that the conditioning containers are arranged on the conveyor belt of a belt conveyor, that the flow generator is arranged stationary on the conveyor belt of the belt conveyor, and that the flow generator the inlet and outlet openings associated with the conditioning hoppers having. With the belt conveyor, the device according to the invention acts purely externally as a continuously operating belt dryer, but each arranged on the conveyor belt of the belt dryer conditioning container acts on its own as a batch or batch-working tray dryer. Thus, the device according to the invention advantageously has the performance parameters of a continuously operating device, but their known from the prior art disadvantages are compensated by the discontinuous operation of their arranged on the conveyor conditioning tank. Due to the large number of conditioning containers, segregation of the bulk material and larger spills in the form of overdried bulk material are effectively prevented.

According to a first embodiment of the invention, the flow generator on its inlet openings enclosing Zuluftkästen and its outlet openings enclosing exhaust boxes. The supply and exhaust air boxes function as fittings between the conditioner lines of the flow generator and the container openings of the conditioning containers. Preferably, all Zuluftkästen are designed as diffusers and all exhaust boxes as nozzles, so that the conditioning agent in the interior of the Zuluftkästen and exhaust boxes interconnecting conditioning tank reaches its minimum flow rate. The supply air boxes and exhaust air boxes also serve to accommodate filter and filter cartridges.

According to a next development of the invention, the Zuluftkästen and the exhaust boxes, based on the conveying direction of the conveyor belt, arranged in alternating succession to each other. The stationary arrangement of the flow generator on a moving conveyor belt causes a relative movement between the conditioning agent flowing through the inlet and outlet openings on the one hand and the conditioning tanks moved on the conveyor belt on the other hand. As a consequence of this relative movement, the flow conditions prevailing in the conditioning containers are subjected to continuous changes of direction. The constant changes of direction ensure maximum contact between the bulk material and the conditioning agent flowing over the bulk material. It is within the scope of the invention that the Zuluftkästen and exhaust boxes in the conveying direction limiting box walls are transverse or at an angle to the conveying direction of the conveyor belt, for example, to achieve particularly soft control characteristics.

A particularly efficient treatment of the bulk materials is achieved in that the flow cross section at the outlet of a supply air box plus the flow cross section at the inlet of an exhaust air box corresponds approximately to the opening cross section of the conditioning tank. It is thereby achieved that the flow cross-sections tapped simultaneously from the opening cross-section of a single conditioning container at the outlets of the supply air boxes and the flow cross-sections tapped at the same opening cross-section at the inlets of the exhaust boxes over the entire Treatment duration, ie with driven conveyor belt, remain constant in their individual sums and in their relationship to each other. The flow generator operates in this way with constant volume flows. Of course, more than a single exhaust box or a single supply air box can be assigned to the Konditionierungsbehättern each.

According to a particularly advantageous embodiment of the invention, the Zuluftkästen and the exhaust boxes on the one hand and the conditioning tank on the other hand as a gap seal cooperating sealing surfaces. These allow a non-contact seal between the stationarily arranged Zuluftkästen and exhaust boxes on the one hand and the movable along with the conveyor belt conditioning Haiftwares other hand. The gap seal preferably has a gap dimension which is smaller than the diameter of the smallest bulk material particles to be treated with the device according to the invention. Depending on the bulk material to be treated, it may be advantageous if the Zuluftkästen and the exhaust boxes on the one hand and the conditioning tank on the other hand as a sliding seal cooperating sealing surfaces.

In order to prevent individual bulk material particles from leaving the conditioning containers in the direction of their outflow openings, it is proposed to reduce the outflow rate of the conditioning agent. For this purpose, the flow cross-section of an exhaust air box is formed larger than the flow cross-section of a Zuluftkastens.

Instead of an alternating arrangement of the supply and exhaust air boxes may alternatively be provided that several Zuluftkästen are grouped together, each group of Zuluftkästen is disposed within a vent box, which covers several along the belt conveyor juxtaposed conditioning tank. The supply air boxes oriented in particular parallel to one another within the exhaust air box and pointing with their outlets onto the container openings of the conditioning containers distribute the outflowing conditioning agent advantageous evenly on the bulk material in the conditioning containers. After the treatment of the bulk material then the usually laden with moisture conditioning agent, for example, completely or partially dissipated via the example located in the ceiling of the exhaust box discharge port.

By integrating several Zuluftkästen in a single exhaust box, a modular design, in particular each exhaust box with the respective associated group of Zuluftkästen can be achieved. As a result, an advantageously simple juxtaposition of the module-like exhaust air boxes is possible, so that a flow generator can be formed, which is tuned individually to the conditioning requirements to be met.

According to another embodiment of the invention, at least a first group of inflow and outflow openings are connected to one another via a heating circuit and at least a second group of inflow and outflow openings via a cooling circuit. Of course, several heating circuits or cooling circuits can be provided. For the preparation or treatment of special conditioning agents, further circuits may be provided in which, for example, carburettors, atomizers or other injection devices for adding additives are arranged.

In addition, it is provided that each heating and / or cooling circuit is equipped with a separately controllable control device. Particularly in the case of a flow generator composed of modules, it makes sense to equip each module with a heating or cooling circuit that can be controlled individually, which controls, for example, the temperature or the humidity of the conditioning agent to be brought into contact with the bulk material, and thus a correspondingly aimed at Product quality of the bulk material ensures coordinated treatment.

According to a particularly advantageous development of the invention, the flow generator has at least one Schilttgutwendeeinrichtung. This has, for example, at least one nozzle tube arranged in an exhaust air box, the nozzle openings of which are aligned with the container openings of the conditioning containers. Conveniently, the device according to the invention has a plurality of bulk material turning devices arranged at intervals with respect to one another, wherein these are formed, if necessary, switchable and switchable. Alternatively, the bulk material turning device can also have blades that dip mechanically into the bulk material.

In order to support the flow guidance of the conditioning agent in the conditioning containers as well as in the conditioning containers to be performed on the bulk material turning or mixing operations, the conditioning containers each have a curved at least about an axis transverse to the conveying direction of the conveyor belt curved container bottom. The nozzle tubes of the bulk material turning devices are advantageously arranged parallel to the axes of the curved container bottoms.

In addition, alternatively or optionally, the bulk material turning device may be formed by means arranged at the outlet of the Zuluftkästen nozzles. In this regard, the turning or mixing operations of the bulk material to be performed can be effected via the nozzles provided, for example, additionally at the outlet of the supply air boxes. In this case, the conditioning agent can flow out of the supply air boxes via the various nozzles at different angles onto the bulk material in the conditioning container, as a result of which the mixing process can advantageously be improved.

It is further provided that the flow generator has a plurality of moisture meters with measured value detection openings aligned with the container openings. The moisture meters serve to determine the residual moisture content in the bulk material at various positions on the conveying path to be covered by a conditioning container. The moisture meters are preferably each at the end of a Cooling circuit or a heating circuit running track section arranged.

In order to obtain measurement results from which the moisture content of the bulk material can be derived with particular reliability, it is proposed that the flow generator has the data acquisition openings enclosing covers whose covering surfaces correspond in each case at least to the opening cross section of a conditioning container. In this way, the conditioning containers are closed at the time of the measured value detection by the covers, so that they are flowless. In principle, however, it is likewise conceivable to arrange measured value detection openings in the exhaust air boxes or exhaust air lines of the flow generator.

Analogous to the formation of the gap seal between the supply and exhaust air boxes on the one hand and the conditioning containers on the other hand, also have the covers on the one hand and the conditioning tank on the other hand, the gap seal forming sealing surfaces. Since the covering surfaces of the covers correspond to the opening cross-section of a conditioning container, a supply unit consisting of a supply air box and an exhaust air box can be exchanged modularly for a cover with one or more measured value detection openings.

In addition to the moisture measurement above the conditioning tank, it may be provided that a plurality of container bottoms are equipped with sensors that measure the measured variables for the moisture measurement of the conditioned bulk material. Preferably, the container bottoms of all conditioning containers have such sensors, over which a current of predetermined strength is conducted. The determination of the resistance then determines the residual moisture still present in the bulk material. The determination of the residual moisture can be carried out with advantage continuously, so that conclusions can be drawn at any time about the condition of the conditioned bulk material during the treatment.

According to another embodiment of the invention, it is provided that the bulk material receptacle has at least one heating device associated with the container bottom of the conditioning container. With the help of a arranged below the conditioning tank, a predetermined radiant heat emitting heater can be supported on the one hand over the conditioner means drying process of the bulk material located in the containers. On the other hand can be achieved by acting on the container bottom radiant heat with advantage a toast or roast effect of the bulk material.

Fig. 1:

eine perspektivische Ansicht einer erfindungsgemäßen Vorrichtung,

Fig. 2:

eine perspektivische Teilansicht der Vorrichtung gemäß Fig. 1 in vergrößerndem Maßstab, und

Fig. 3:

eine Ansicht eines zweiten Ausführungsbeispiels einer erfindungsgemäßen Vorrichtung.

Embodiments of the invention, from which further inventive features result, are shown in the drawing. Show it:

Fig. 1:

a perspective view of a device according to the invention,

Fig. 2:

a partial perspective view of the device according to Fig. 1 on a larger scale, and

3:

a view of a second embodiment of a device according to the invention.

The FIG. 1 shows the device according to the invention for the treatment of a bulk material 1 with a bulk material receptacle 2 and one of the bulk material receiving 2 associated flow generator 3. The bulk material receptacle 2 has a plurality of conditioning containers 4, which are arranged on a conveyor belt 5 of a belt conveyor. The flow generator 3 is arranged stationarily on the conveyor belt 5 of the belt conveyor and has inlet openings 7 and outflow openings 8 aligned with the container openings 6 of the conditioning containers 4. Furthermore, the flow generator 3 its inlet openings 7 enclosing Zuluftkästen 9 and its outflow openings 8 enclosing exhaust boxes 10. The Zuluftkästen 9 and the exhaust boxes 10 are, relative to the conveying direction of the conveyor belt 5 in alternating succession to each other. A first group 11 of inflow openings 7 and outflow openings 8 are connected to each other via a heating circuit, not shown, and a second group 12 of inflow openings 7 and outflow openings 8 are connected to each other via a cooling circuit, not shown. Furthermore, the flow generator 3 has a plurality of moisture meters 13, 14, 15 with measured value detection openings 16 aligned with the container openings 6.

The Fig. 2 shows the device according to the invention according to Fig. 1 on a magnifying scale, but with an abstract representation of the belt conveyor. It can be seen that the flow cross section at the outlet 17 of a supply air box 9 plus the flow cross section at the inlet 18 of an exhaust air box 10 corresponds approximately to the opening cross section of a conditioning container 4. In this case, the flow cross section at the inlet 18 of an exhaust air box 10 is greater than the flow cross section at the outlet 17 of a Zuluftkastens 9. The Zuluftkästen 9 and the exhaust boxes 10 on the one hand and the conditioning tank 4 on the other hand have as a gap seal 19 cooperating sealing surfaces. Furthermore, the shows Fig. 2 in that the flow generator 3 is equipped with a bulk material turning device 20. The bulk material turning device 20 has a nozzle tube 21 which is arranged in an exhaust air box 10 and whose nozzle openings (not shown) are aligned with the container openings 6 of the Kondftionierungsbehälter 4. The conditioning container 4 located below the nozzle tube shows the bulk material 1 received therein during a turning process. The conditioning containers 4 each have a container bottom 24 curved around an axis, wherein the axes each extend transversely to the conveying direction according to the arrows 22, 23. In addition, the flow generator 3, the Meßwerterfassungsöffnungen 16 enclosing covers 25, the covering surfaces each correspond approximately to the opening cross-section of a conditioning tank 4. The covers 25 on the one hand and the Kondftionierungsbehälter 4 on the other hand also have the gap seal 19 forming sealing surfaces. According to arrow 26 leaves the conditioned Bulk material 1, the conditioning tank 4. The same components are provided with the same reference numbers.

In Fig. 3 a further embodiment of a device according to the invention for the treatment of bulk materials is shown, which has a together from several exhaust boxes 26 and arranged respectively in an exhaust box air boxes 27 modularly composing flow generator 28. In this case, a plurality of Zuluflkästen 27 of the stationarily arranged on the conveyor belt flow generator 28 are aligned within a vent box 26 approximately parallel to each other. In this case, a respective exhaust air box 26 preferably covers a plurality of conditioning tanks 4. The respective module-like exhaust air boxes 26 can be further controlled separately, so that by a respective control device in a respective section of the flow generator 28, an individual treatment of the bulk material, such as a heating or cooling process, can be made. On the ceiling 29 of a respective exhaust air box 26, a fan 30 is arranged by means of which, for example, laden with moisture conditioning either completely dissipated or at least partially re-introduced by admixing fresh air through the Zuluftkästen 27 on the bulk material 1. The same components are provided with the same reference numbers.

Claims (15)

Device for the treatment, in particular for the drying of bulk goods, having at least one bulk material intake and a flow generator associated with the bulk material intake,
characterized,
that the bulk goods receiver (2) having a plurality of conditioning containers (4),
in that the conditioning containers (4) are arranged on the conveyor belt (5) of a belt conveyor,
that the flow generator (3, 28) is arranged stationarily on the conveyor belt (5) of the belt conveyor, and
that the flow generator (3, 28) the conditioning containers associated with (4) inflow and outflow openings (7, 8). Apparatus according to claim 1, characterized in that the flow generator (3) its inlet openings (7) enclosing Zuluftkästen (9, 27) and its outflow openings (8) enclosing exhaust boxes (10, 26). Apparatus according to claim 1 or 2, characterized in that the Zuluftkästen (9) and the exhaust boxes (10), based on the conveying direction of the conveyor belt (5), are arranged in alternating succession to each other. Apparatus according to claim 2 or 3, characterized in that the flow cross section at the outlet (17) of a supply air box (9) plus the flow cross section at the inlet (18) of an exhaust box (10) corresponds approximately to the opening cross section of a conditioning container (4). Device according to one of claims 2 to 4, characterized in that the Zuluftkästen (9) and the exhaust boxes (10) on the one hand and the conditioning tank (4) on the other hand as a gap seal (19) cooperating sealing surfaces. Device according to one of claims 2 to 5, characterized in that the flow cross section at the inlet (18) of an exhaust air box (10) is greater than the flow cross section at the outlet (17) of a supply air box (9). Apparatus according to claim 1 or 2, characterized in that several Zuluftkästen (27) are combined to form a group, each group of Zuluftkästen (27) within a plurality of conditioning tank (4) covering the exhaust box (26) are arranged. Apparatus according to claim 7, characterized in that the exhaust boxes (26) are formed in a modular manner together with the respectively associated groups of Zuluftkästen (27). Device according to one of claims 1 to 8, characterized in that at least a first group (11) of inflow openings (7) and at least one of the outflow openings (8) via a heating circuit are interconnected, and that at least one second group (12) of Inlet openings (7) and at least one of the outflow openings (8) are interconnected via a cooling circuit. Device according to one of claims 1 to 9, characterized in that the flow generator (3) has at least one bulk material turning device (20). Apparatus according to claim 10, characterized in that the bulk material turning device (20) at least one in an exhaust box (10, 26) arranged nozzle tube (21) whose nozzle openings on the Behbeternöffnungen (6) of the conditioning container (4) is aligned. Apparatus according to claim 10 or 11, characterized in that the bulk material turning device is formed by means of at the outlet of Zuluftkästen (9, 27) arranged nozzles. Device according to one of claims 1 to 12, characterized in that the conditioning container (4) each have a at least about an axis transversely to the conveying direction of the conveyor belt (5) extending axis curved container bottom (24). Device according to one of claims 1 to 13, characterized in that the flow generator (3) has a plurality of moisture meter (13, 14, 15) with the container openings (6) aligned Meßwerterfassungsöffnungen (16). Device according to one of claims 1 to 14, characterized in that a plurality of conditioning containers (4) are equipped at their container bottoms with sensors detecting the measured variables for the moisture measurement of the conditioned bulk material (1).

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