DE912653C - Device for spraying bulk material with liquid atomized by compressed gas - Google Patents

Description

Device for spraying bulk material with atomized by compressed gas Liquid The invention relates to a device for spraying bulk material with liquid atomized by compressed gas. Such devices have the purpose the moisture content of the bulk material to a size suitable for further treatment bring to.

Spray devices in which liquid is atomized by compressed air and then blown out of nozzles are known. One uses it for atomization the well-known atomizer. The disadvantages of the known systems are the difficulty to handle the device in such a way that the spray occurs at the moment where the bulk material occurs. If the spray occurs later, it is what occurred before Bulk material is not sufficiently moist, but if the bulk material falls on later, then it beats the moisture settles on the walls of the spray device and forms with the then incoming bulk material has a smear layer that contaminates the apparatus and clogged.

According to the invention, devices are used to remedy these disadvantages attached, the once the compressed air supply only depending on the presence control of bulk material and the other hand such as the water supply to the atomizer delay so that the inertia of the respective system can be taken into account.

For the first-mentioned purpose, a storage vessel is suitable, which is in the Arranged bulk material line and has the effect of the accruing Stowing bulk goods and then doing some work with the resulting weight load. which is used to open the air cock. The closure then takes place by a retraction force after the storage vessel has dried up Bulk material flow has leaked. The actuation of the compressed air valve can be carried out immediately mechanically or indirectly using any of the known servos take place. If the compressed air is now switched on, the atomized liquid is standing immediately afterwards at the nozzle, as the compressed air speed is high. The bulk material, on the other hand, usually takes a long time to trickle through the humidifier, whereby the disadvantages described arise. To remedy this, is in the suction line a pipe with a large volume in relation between the atomizer and the liquid container switched on to the suction pipe. The liquid must now first under the suction pressure fill in this intermediate tube before it is available in the atomizer. The size of the pipe can be dimensioned at any time so that the inertia of the respective apparatus Is taken into account.

The device according to the invention is based on an exemplary embodiment shown schematically in the figure and described in more detail below.

On the spindle of the compressed air valve z with air supply line 2 and the Connecting line 3 to the atomizer .4, a lever 5 is attached to which the bucket-shaped Storage vessel 6 is suspended. This has an optionally exchangeable bottom 61, which has one or more openings 62. Above the bulk container, which is attached to the spring 7 is suspended, there is the feed chute g for; the bulk material. Under the atomizer 4, the water tank 9 is attached, the water level r o is automatically kept at the same height, e.g. B. by means of. des by the float i i actuated valve 12. The water is sucked in through the riser 13, which merges into the delay pipe 14 at the height of the water level. The height this pipe depends on the inertia of the respective system. The blowout The atomized liquid can be placed in the nozzle immediately behind the atomizer .4 15, but a long-distance line 16 can just as well be provided.

The effect of the system is such that from the rest position, at which the storage vessel 6 is empty, this initially entering through the shaft when it occurs Bulk material is filled, as more is obtained than through the opening 62 in the bottom of the Storage vessel can drain. If the storage vessel 6 is filled, it sinks against the Force of the spring 7 down and opens the Preßluftventi'l i by pivoting the Lever 5. It will. nine compressed air is supplied to the atomizer 4, which is in the lines 13, 14 generates a negative pressure, as a result of which liquid is sucked out of the container 9 will. Until the bulk material has reached the wetting chamber, which is z. B. a sieve has gone, some time elapses in which the liquid in the Delay vessel 14 slowly rises to then at the same moment with the bulk material to reach the wetting chamber. If the bulk material stops flowing, the Compressed air shut off after the storage container 6 has run empty, since the spring 7 is empty Pull the vessel and thus the valve lever upwards.

Instead of mechanical actuation as shown in the drawing is, actuation via servo means in the known manner, e.g. B. electrical, take place.

The restoring force 7 can be from one of the known force storage means, z. B. also a weight can be applied.

A flow meter is used to measure the amount of water added to turn on the suction pipe. It is advisable to use a flow meter, which can also serve as a suction pipe.

If ice is required, the return of the pipe system between To let the water in the suction opening and atomizer go faster, as the small suction opening allows, one must have a check valve between Flow meter and the pipe 14 large content connected bypass line arranged will.

Claims (4)

PATENT CLAIMS: i. Device for spraying bulk material with liquid atomized by compressed gas, characterized in that a storage vessel (6) for the bulk material, which is acted upon by a storage force counteracting the force of gravity (7), is connected directly or indirectly to the compressed air valve (i) in such a way that its under the Bulk load the distance covered is used to actuate the compressed air valve. 2. Device according to claim i, characterized in that that between the suction pipe (13) and the atomizer (4) a flow chamber (14) is switched on is, which has large volume in relation to the intake pipe (13), so z. B. a sloping, coiled pipe or a pipe with a larger cross-section. 3. Device according to claim 2, characterized in that a flow rate meter in the suction pipe (13) arranged or this is itself designed as a flow meter. 4. Device according to claim i, characterized in that the one or more passage openings (6: 2) provided bottom (61) of the storage vessel (6) is exchangeable.