DE130655C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The present invention relates to a drying cylinder for paper mills, textile goods mills and the like. The novelty of this steam-heated cylinder consists in one Device for the permanent drainage of the condensation water immediately after its formation and during operation. This enables the cylinder to run at a higher speed and at a Lowest consumption of steam a larger amount of the goods to be dried over the Cylinder to guide and dry.

For this purpose, the cylinder is provided with a helical groove that opens up the inside of the cylinder wall is arranged and expediently in one with an outlet designed pocket ends. The outlet can be in the hollow bearing journal of the cylinder be the emptying pipe, and the channel drains from the center of the cylinder arrange its ends leading out. However, the arrangement of the channel from one end of the cylinder in one or more turns to the other end of the cylinder, the Expiration end extending. It is also advantageous, the cross-section and thus the absorption capacity to enlarge the channel towards the drain, as the amount of water to be added and to be drained off to the end of the drain progressively grows.

In the accompanying drawing is
FIG. 1 shows a longitudinal section of the drying cylinder, FIG. 2 shows a cross section along line 2-2 of FIG.

3 is a section along line 3-3 of FIG

Fig. 4 is a section along line 4-4 'of

3,

5 shows a cross-section on a larger scale through the cylinder.

The cylinder is of a known device and consists of the cylindrical jacket a and the end walls b and c provided with hollow bearing pins de. On the inner surface of the cylinder wall, the channel f is arranged, which runs in a helical turn from one end wall to the other. After the pocket h (FIG. 4) into which the channel opens, the channel increases in cross section for the reasons given in the introduction. The pocket, which can expediently be given a triangular cross-sectional shape, extends radially from the cylinder wall to the cylinder axis and is provided at the axial end with a tube i , which opens into the hollow pin D. Laterally, the pocket continues to a space j , which is delimited by the plate k, channel f and side wall m and forms an enlargement of the pocket for the purpose of receiving a large amount of water and preventing it from flowing back into the cylinder during its rotation. In addition, it is given the shape shown in FIGS. 1 and 5 with particular advantage, the channel by means of

a short flange 5 can be connected to the cylinder wall α by soldering or riveting.

The inner flange 6 is larger than the flange 5 and is parallel to the cylinder wall. But nothing stands in the way of omitting the flange 5 and connecting the channel wall 8 to the cylinder by soldering.

During operation, the steam introduced into the cylinder condenses under the influence of the cold or wet material running over the cylinder circumference and the material to be dried, and the condensed water is taken up by the channel during the rotation of the cylinder, held and runs towards the end of the drain to flow into to drain the pocket and to flow out through the tube i. In this way the condensate is ejected at the same speed and in the same measure as it is formed; A consequence of this is that the condensation is generally diminished, the formation of air membranes or vesicles in the immediate vicinity of the metal cylinder body is reduced to a minimum, and the loss of heat due to the dissipation of heat to the exiting water is likewise reduced to a minimum, while a maximum amount heat passes through the metal cylinder jacket to the material to be dried on its outside.

The drying cylinder shown in Fig. 1 represents such a largest construction, d. H. of a length of approximately 4 m. With such a dimensioning, the channel can be given several turns. With shorter ones or wider cylinders, about 1 to 1.5 m in length and 1 to 2.5 m in width, this is impractical; here the channel will not even need to form a complete turn.

As' the Fig. 5 shows, the channel consists of an angle iron 5, 8, 6, one of which is Schen

angle 5 is connected to the "cylinder wall α and whose other leg 6 is parallel to the cylinder surface and forms a wall that not only collects the water when the cylinder rotates, but also holds it and transports it to the outlet end of the cylinder. This wall also prevents that The water collected on the return flow into the cylinder makes it out, even if the latter rotates at high speed, as a result of which the drying capacity of the cylinder is considerably increased with the least amount of steam consumed.

Claims (4)

Patent Claims: 1. Device on drying cylinders for un-. Interrupted discharge of the condensate, characterized by a channel running helically on the inner wall of the cylinder from the steam inlet end to the outlet end ff) with a wall that is parallel to the cylinder wall and holds the condensate in order to absorb the condensate immediately after its formation, to hold it and to lead it to the end of the drain . 2. An embodiment of the device according to claim 1, in which the channel (f) opens into a pocket (h) from which the collecting condensation water flows off through the hollow bearing pin (d) . 3. An embodiment of the device according to claim 2, in which the pocket (h) is equipped with a side space (j) in order to be able to accommodate a larger amount of condensate and to prevent it from flowing back into the cylinder. 4. Another embodiment of the device according to claim 1, in which the channel (f) grows towards the outlet in terms of its size and therefore its capacity. 1 sheet of drawings.