DE2934022A1 - METHOD AND DEVICE FOR CONTROLLING THE VENTILATION FOR A DRY MATTER IN A TUNNEL DRYER - Google Patents

Abstract

1. A process for controlling the ventilation of an object to be dried in a drying tunnel, in particular for brick blanks arranged in layers, which is moved through the drier in opposite direction of the air current, in which process heated air is introduced under excess pressure in the tunnel in the area of the outlet of the tunnel, in which the air from the tunnel section above the layers is deflected downwards to the layers in several areas in longitudinal direction of the tunnel by means of air deflecting means and is removed from the tunnel in the area of the inlet, characterized in that the laminar air current caused by the pressure difference is moved through the object to be dried by means of air deflecting means which can be moved to and fro in longitudinal direction during drying.

Description

KLAUS D. KIRSCHNER WOLFGANG LARGE

_DIPL. PHYSICIST II · DIPLINE ENGINEER

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HERZOG-WILHELM-STR. 17 D-a MUNICH 2

YOUR SIGN. VOUR REFERENCE:

OUR SIGN. OUR REFERENCE

DATE:

Method and device for controlling the ventilation for a material to be dried in a tunnel dryer

The invention relates to a method and a device for controlling the ventilation for a material to be dried in a tunnel dryer, in particular for brick blanks arranged in set layers that move through the dryer against the air flow will.

In tunnel dryers of the type described above, the tunnels of which are a few meters wide and a few meters high, are accordingly large wagons conveyed in the longitudinal direction on which the dry goods is set off on a floor-by-floor basis. The air required to remove the moisture from the dry material is opposite to the direction of movement the car passed through the tunnel dryer. 2s dryers are known in which the length of the dryer

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further hot air facilities are provided in the tunnel, or where the air is wholly or partially taken from the drying tunnel / is heated and then fed back in.

The air speed of the dry air through the counterflow principle working tunnel dryer of the aforementioned type is about 0.5 to 2.0 m / sec, with the air as a result of its warming moves along primarily in the upper cross-section of the tunnel, so that it is in the lower cross-section and in the middle Dry material located in sections of the tunnel dries very slowly.

To improve the production capacity of the tunnel dryer, it is known to have circulation fans for the drying air along to provide the drying tunnel in order to circulate the air with a multiple of the throughput over the tunnel cross-section and thus to achieve an equalization of temperatures and humidity over the tunnel cross-section and the dry material with dry air to apply.

Since with continuous aeration of the dry material, the water on the surface of the dry material evaporates faster than it can be conveyed through the capillaries of the dry material, the dry material begins to dry out quickly on the surface, so that it disappears faster on the surface than on the inside. This can damage the dry material such as cracks, Cracks etc. arise.

To avoid this disadvantage, tunnel dryers have been developed in which the circulating fan can be moved between the Dryer carriage trains have been set up and the items to be dried are ventilated according to a specific program. This will be the above-described disadvantages of continuous ventilation are avoided, and the carriages are also used between the circulation fans ventilated.

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There are also known tunnel dryers with shallow tunnels, where only a low layer of dry material, about 0.2 to 0.5 meters in wide tunnels, is dried using the countercurrent principle is and wherein the circulation fans are fixed or moveable over the material to be dried.

The known flat tunnel dryers have significantly faster throughput times than larger-scale tunnel dryers achieved, the air speed in the tunnel dryer is up to 12.0 m / sec.

Because of this high air speed, the control of the moisture gradient in the tunnel dryer is very difficult, so that with only relatively insensitive items to be dried in these tunnel dryers can be dried.

While the disadvantage of tunnel dryers with circulation fans is the high amount of energy required to ventilate the Dry material has to be applied, there is a disadvantage with flat tunnel dryers without circulation due to the high air speed, which make the control of the drying process much more difficult.

The invention is therefore based on the object of a tunnel dryer according to the generic term, in which the drying is intensified by an improved control of the ventilation without the need for energy-intensive circulation fans.

This object is achieved according to the invention by the features in Claims 1 and 5 specified features solved. Further advantageous method steps or embodiments of the method serving device emerge from the subclaims.

According to the invention are in the flat tunnel dryer about

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the dryer carriage and the only low layered dry material available on it, through which large free cross-section the dry air moves slowly from the extension side or injection device to the entry side or suction device moved, transverse air guide elements arranged, which are designed to be flow-optimized and the incoming compressed air to the moving under the air deflectors using the countercurrent principle Divert dry goods. The air is forced to to enter the free spaces and the dry material in order to flow through it. Around the application evenly To be distributed over the area to be dried in the dryer tunnel, the air guiding devices are movable Slides mounted, which can be moved back and forth a few meters like the circulating fans in the known dryers and thus a homogeneous application of dry air to the dry material effect of high speed.

The proposed control of the ventilation of the dry material at controllable intervals intensifies the drying process, without the need for energy-consuming circulation fans. At the same time, the dry air flows through relatively slowly the dryer tunnel, so that the control of the moisture gradient according to the requirements made by the material to be dried can be done in a simple manner. Due to the advantageous profiling of the air guide bodies and their mobility in the longitudinal direction, a corresponding flow profile can be formed so that the air is undulating Flow through the drying tunnel. The uniform drying of the material to be dried is ensured by the fact that the dryer during during the drying process are moved back and forth and the material to be dried is conveyed to the drying air using the countercurrent principle. Since the air guide bodies are designed as hollow bodies, heating would be conceivable, or an air pressure system could be used inside the air guide body be provided, by means of which an influence on the by negative pressure or overpressure application

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Air flowing through the tunnel dryer via nozzles or the like would be possible.

Further features, details and advantages of the invention emerge from the following description of preferred exemplary embodiments based on the drawing. The figures show two different exemplary embodiments for the in the tunnel dryer arranged air guide through which the flow pattern indicated by arrows is achieved.

In Figures 1 and 2 is a tunnel dryer in a schematic manner 1 shown. This tunnel dryer 1 has a gate 2 and on on its entry side on the left in relation to the figures a gate 3 on its right extension side. In the area of the extension side there is an injection opening 4 to which an injection nozzle is attached 5 is connected, which is connected to an injection device, not shown, via this injection nozzle 5, compressed air is introduced into the tunnel dryer 1 in the direction of arrow 6.

In the area of the entry side, in the upper part of the tunnel dryer 1, there is a suction opening 7, which is provided with a suction nozzle 8 is connected. This suction nozzle 8 is connected to a suction device, not shown, which is used for this purpose ensures that the air is sucked out of the tunnel dryer 1 as moist exhaust air in the direction of arrow 9.

The figures also show dryer car 10, which on rails 11 by means of a drive, not shown, in the direction of Arrows 12 are continuously moved through. On the dryer car is .sich the dry goods 13, which in the illustrated Embodiments is formed by bricks that are placed in stacks.

In the free cross section of the flat tunnel dryer 1 above

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of the dry material 13 are air guide bodies 14, which by means of carriage 15 on rails 16 in the longitudinal direction of the Tunnel dryer 1 can be moved back and forth. As in the exemplary embodiment according to FIG. 1, these air guide bodies 14 can shown, be connected to one another by a coupling 17, so that only a common drive is required, or, as shown in FIG. 2, be movable independently of one another, so that the distance between two adjacent air guiding bodies can be set at will. This allows the flow profile of the compressed air flow to be changed.

The air guide bodies 14 and 18 are designed as hollow bodies and have a flow-favorable profile, so that on the one hand they ensure that the air down to the dry goods is deflected, but on the other hand a disturbance of the flow by the formation of eddies or the like. Prevent.

In the left air guide body 18 according to FIG. 2 it is indicated schematically that this is adjustable in height by a lower extendable part 19 so that the space between the air guide body and the stacked item 13 can be reduced according to the height of the stacked item. The air flow 20, which is indicated by arrows in both figures, is directed downwards between the stack of bricks and passes through the holes in the bricks, so that they are ventilated not only on their surface but also in the core and thus from the inside and not only dry on the outside. Since the tunnel cross-section in the area of the air guide elements 14, 18 is closed by the air guide elements over its larger section and the passage cross-section is thus considerably reduced, the air flow is accelerated in the area of the air guide elements, so that intensive drying is achieved.

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Claims (1)

KLAUS D. KIRSCHNER WOLFGANG LARGE D I PL.-PH YS IKER Fuchs & Co. Aktiengesellschaft for electrical wire production and mechanical engineering Graz / Austria Di PL.-l NGENIEUR APPROVED REPRESENTATIVES FOR THE EUROPEAN PATENT OFFICE HERZOG-WILHELM-STR 17 D-8 MUNICH 2 YOUR SIGN:
YOUR REFERENCE: our sign ^ 35o4 Gs / dp OUR REFERENCE: DATE: August 22, 1979 Method and device for controlling the ventilation for a material to be dried in a tunnel dryer Claims 1. A method for controlling the ventilation for a dry material in a tunnel dryer, in particular for brick blanks arranged in set layers, which are moved through the dryer against the air flow,
characterized in that a) hot air is introduced into the tunnel with overpressure in the area of the exit side, b) the air from the tunnel cross-section located above the settling layers in several areas in the longitudinal direction of the tunnel is deflected down to the setting positions, and c) is sucked out of the tunnel in the area of the entry side. 130013/0399 2. The method according to claim 1, characterized in that the areas at which the air is deflected downward while be moved lengthways during drying. 3. The method according to claim 2, characterized in that the areas where the air is deflected downward in Be moved back and forth evenly in the longitudinal direction of the tunnel. 4. The method according to any one of claims 1 to 3, characterized in that that the air is passed through the tunnel at intervals. 5. Device for performing the method according to one of claims 1 to 4, characterized by a tunnel dryer (1) with an injection device (4, 5) arranged on the extension side (3) for dry hot air and one on the Entry side (2) arranged suction device (7, 8) for moist exhaust air and through at least one air guide body (14, 18), the one in which is located above the material to be dried (13) Tunnel cross-section (1) is arranged and the air flow (20) forcibly passes through the dry material (13). 6. Apparatus according to claim 6, characterized in that the air guide bodies completely fill the free tunnel cross-section. 7. Apparatus according to claim 5 or 6, characterized in that the air guide body (14, 18) has a flow-favorable inflow and have a discharge profile, so that the air flow as a uniform, undulating laminar flow through the material to be dried (13) is passed through. 8. Device according to one of claims 5 to 7, characterized in that the air guide body (14, 18) is movable 130013/0399 Carriage (15) or the like. Are mounted. 9, execution according to claim 8, characterized in that the carriages (15} can be moved in the longitudinal direction of the tunnel. IC, device according to one of claims 5 to 8, characterized in that that the air guide body (18) are adjustable in height. 11. The device according to claim 10, characterized in that the air guide body (18) can be extended by means of supplementary profiles (19) are, 12. Device according to one of claims 1 to 11, characterized in that that the air guide bodies are hollow bodies (14, 18), 13. Apparatus according to claim 8 or 9, characterized in that that the carriages (15) have a remote-controlled, programmable drive, 110013/0399