DE101576C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 82: Drying devices.

P. JORISSEN in DÜSSELDORF. Channel drying.

Patented in the German Empire on April 13, 1898.

In channel drying systems, in which the material to be dried is dried by an air stream good pre-drying of the material to be dried was previously not possible. If you let the warm dry air pass through the channel in the usual way, so became more gradual as a result of the uptake of moisture in the dry air and thereafter Cooling the same. Moisture at the end of the duct opposite to the inflow of the dry air on the Dry material knocked down and thus not only no pre-drying of the dry material achieved, but rather causes it to become even more moisturized. Various approaches have been taken to avoid this , for example, according to D.R.P. No. 97281, one blows into the gradually the humidity of the dry goods more and more saturating air at intervals warm Dry air, which condenses the moisture contained in the dry air should prevent. However, this process has two main drawbacks: first, there is consumption of fuel for the warm air is very large, because the latter through long pipes up must be passed through almost the entire length of the drying device and located here already unused cools down, secondly, the still wet stones also get hot from the hot Airflow and hit them all at once a lot. Dehydrated, causing them to crack will.

In contrast to this, the present invention now aims to provide the dry material with moderately warmerJL ^ ft_jOT ^ dryjne.n and so to dry pre-dried goods with warmer air, creating a uniform, not cracked goods are obtained.

In the one shown in the accompanying drawing. Embodiment of the drying device Fig. ι is a vertical section through the same and Fig. 2 is a horizontal Cut of the same.

At one end of the drying duct α b is the duct c supplying the warm air, from which, expediently in the direction of the air flow, the warm air is guided into the drying duct α b by means of a duct d. This warm air from c flows in the direction of the arrow after the chimney i. Between channel c and chimney i there is a second channel e, which is connected to the drying channel ab by a connecting channel f directed in the air flow direction. The channel e is used to supply cold pressurized light. The dry material is conveyed on wagons from α to b in the opposite direction to the flow of drying air, so that the hottest air hits the wagons pushed in first and the cooled air hits the wagons pushed in last.

The cold one coming from e, Jracken_e. - The air flow mixes first with the hot air flow coming out and thus forms a moderately warm air mixture which is able to pre-dry the material to be dried between α and e without creating cracks in it as a result of excessive removal of moisture. Since these mäfsig warm air with time on their way to i off

Claims (1)

cools and is inclined as a result of the captured moisture latter to deliver by the condensation, b is above the channel and α m disposed below the chimney i a cap which forms an extension of the channel from. The air polluted with moisture collects in this expansion and can expand freely here, thereby avoiding condensation. After the pre-dried stones have been transported via the channel e by means of the carriage, they are only hit by the hot air stream "coming from c . This can now have no harmful effect on the pre-dried stones, since they do not crack as a result of the good pre-drying more is to be feared. After the stones have crossed the channel c , they are removed by means of the wagons carrying them through the sliding door h . This, as well as the door g at the entrance, is of course closed during operation and only opened when a wagon should be pushed out or in. Patenτ claim: Channel drying, in which a channel e for the supply of cold air is provided between the inflow for the hot air and the outflow of the dry air, which mixes with the warm air coming from c and pre-dries the freshly inserted wet stones, whereupon the latter after it has passed the channel e are pushed, only to be dried by the hot air stream, in order to avoid condensation on the channel α b, a cap m is provided, in which the air contaminated with moisture can expand. For this purpose ι sheet of drawings.