CH623921A5 - Cooling or heating roller - Google Patents

Description

The invention relates to a cooling or heating roller with a rotatably mounted roller jacket which, with an inner drum arranged therein, includes an annular space containing a heat transfer medium, the axially opposite ends of which are connected to one another by a connecting space located within the inner drum, the inner drum being at least one projecting rib which influences the relative speed of the medium in relation to the roll shell.

In the case of cooling or heating rolls, the aim is a high heat transfer value and a uniform temperature distribution over the outer surface. The throughput of the heat transfer medium should be as low as possible due to the rotary implementation of the roller bearing. Newer designs therefore strive for an internal medium circulation, whereby the amounts of the medium passed through the rotating union are limited to the value required to continue or supply the heat. In a known cooling or heating roller of the type mentioned, the medium circuit is driven by the annular space enclosed between the roller shell and the inner drum and the connecting space located within the inner drum by guide ribs which protrude from the inner drum to the roller shell and are helically inclined with respect to the longitudinal direction of the roller. These guide ribs can only exert a conveying force on the medium in the axial direction if it is held in the circumferential direction. This requirement is met in the known roller in that it is steam-heated, so that the liquid medium portion only partially fills the roller and, because of its persistence in its lower region, is therefore unable to follow the circumferential movement. The arrangement cannot be used for rolls completely filled with liquid heat transfer medium because the medium would be carried along by the roll rotation and therefore has no relative speed with respect to the ribs and therefore cannot be pumped by them. In such cases, the media circuit inside the roller is driven by means of a circulation pump arranged therein, the shaft of which is guided through the hollow roller neck, or the medium fed to the roller is used as a propellant in an internal injector. Both are complex.

The invention is therefore based on the object of providing a cooling and heating roller, the internal medium circuit of which is maintained in a simpler manner even when completely filled with liquid heat transfer medium. The solution according to the invention consists in that the rib projecting from the inner drum to the roll shell and influencing the medium on the inner drum set up for a relative speed deviating from the roll shell runs essentially in the longitudinal direction, and that at least at one end of the annular space a paddle wheel fixedly connected to the roller shell is arranged.

The longitudinally extending rib protruding from the inner drum prevents the medium from following the rotational movement of the roll shell. This is known per se 15 (US Pat. No. 3,022,047). The essential effect of the invention is based on the two effects explained below. The first effect is that the stationary rib acts as a guide surface in relation to the pump vane wheel rotating with the roller jacket and thus ensures the pump function even when the medium is completely filled. The second is that a relative speed is imposed on the medium in relation to the roller shell, which corresponds to the geometric sum of the peripheral speed of the roller shell in relation to the inner drum and the longitudinal speed of the medium. In spite of the simple construction, the invention thus enables the medium to be given a relative speed relative to the roll shell, which is considerably greater than the peripheral and axial speeds. The rib is expediently designed as a scraper 30 which bears against the inside of the roll shell and thereby counteracts deposits and boundary layer formation, as a result of which the heat transfer is further improved.

It is also advantageous if the connection space mentioned contains a heating or cooling device for the medium. 35 The invention is explained in more detail below with reference to the drawing which illustrates an advantageous embodiment. Show it:

1 shows an axial section,

4o FIG. 2 shows a cross section along line A - B of FIG. 1, FIG. 3 shows an alternative embodiment to FIG. 2,

Fig. 4 shows the speed vectors of the medium with respect to the roll shell and

5 shows a partial section in the circumferential direction along line 45 C-D of FIG. 1.

The cooling and heating roller, which is to be used, for example, for the treatment of flexible webs, powdery or pasty goods, is constructed as a rotating body about the axis 1 and consists of the roller shell 2, two roller end walls 3 rigidly connected to it and bearings arranged in the latter 4 for mounting the roller on the fixed hollow axis 5. In the example shown, it is equipped with a mechanical seal. The hollow axis is divided in the middle by a partition 6, the sections 7 and 8 formed by the division 55 being connected to feed and discharge devices for the medium and communicating through holes 9 and 10 with the interior of the roller, so that Medium can be fed in and out in the direction of the arrows.

60 An axially parallel radial wall 11 is rigidly attached to the hollow roller (see FIG. 2) and extends almost to the inner surface of the roller shell 2 and almost over the entire length of the roller. The inner drum 12 is fixed rigidly and concentrically to the roll shell 2 on this wall 11. It includes an annular space 13 with the inner surface of the roller shell 2. Their axial ends are at a distance from the roller end walls 3 which is at least of the same order of magnitude as the radial width of the annular space 13.

623 921

It goes without saying that any known techniques can be used for mounting the roller on the hollow shaft 5, for executing the hollow shaft, for supplying and removing the medium and for fastening the inner drum. For example, the medium can be fed in and out on the same side. The inner drum could be attached to the hollow axle by a plurality of spokes.

In at least one of the spaces between one end of the inner drum 12 and a roller end wall 3, a pump blade wheel 14 is provided, which is fixedly connected to the roller. The attachment is not shown in detail in the drawing. However, it is expedient to carry out the attachment to an end wall of the roller or to radially inner parts of the roller, so that the uniform temperature distribution within the roller shell is not disturbed by the paddle wheel and its fastening elements. The pump paddle wheel 14 contains blades which (for example according to FIG. 5) are arranged in such a way that they are strongly inclined in comparison with the direction of the rib 15 formed by the wall 11, which projects outside the inner drum 12 towards the roller shell, so that in the interaction of the rib 15, which is moved relative to one another, and the pump paddle wheel 14 results in a pumping action which leads to the circulation indicated by arrows in FIG. 1 above.

In normal cases, as shown in the drawing, a single impeller is sufficient for both directions of rotation. If you want to achieve a stronger pumping action, you will also arrange a corresponding pump paddle wheel at the other end of the inner drum. If the blades of both pump vane wheels are inclined in the same direction and both are in the same flow circuit, the strength of the circulation advantageously results for both directions of rotation. Instead, each of the two pump vane wheels can be assigned its own flow circuit with mirror symmetry by interrupting the inner drum in the manner shown by DE-OS 1 775 394.

According to FIG. 4, the real velocity of the heat transfer medium in the annular space 13 is composed of the relative circumferential velocity 16 and the axial velocity 17 caused by the pumping action, which geometrically add up to the larger effective velocity 18. With the rib 15 stationary, the relative peripheral speed 16 of the medium with respect to the roll shell is approximately equal to the peripheral speed of the roll shell. If you want to increase this speed component, you can io set the inner drum with the rib 15 in a rotation opposite to the roll shell. In such cases, however, it is usually structurally simpler to increase the axial speed 17 caused by the pumping action by appropriately designing the pump vane wheel or 15 of the pump vane wheels.

What is important for the invention is the feature that the rib 15 projecting from the inner drum 12 to the roll shell extends essentially in the longitudinal direction of the arrangement, so that the summation of the circumferential 20 and axial speeds illustrated in FIG. 4 can result. However, precise parallelism of the ribs is not important.

Fig. 3 illustrates the design of the rib 15 as a scraper with a thin, resiliently biased against the inner surface of the roll shell 2 scraper blade 19. In the illustrated 25 th case it is symmetrical in both directions of rotation. Of course, it could also be designed to act in one direction only. The scraper blade prevents deposits on the inner surface of the roll shell and thus ensures unhindered heat transfer. In addition, it destroys the boundary layer of the heat transfer medium adhering to the roller jacket and thus contributes to improving the heat transfer.

It can be seen that the connection space 20 located within the inner drum 12 can contain 35 heating or cooling device for the medium, not shown in the drawing. It is therefore possible to supply or discharge the heating or cooling energy in a form other than through the heat transfer medium itself.

C.

2 sheets of drawings

Claims (4)

623 921 1. cooling or heating roller with a rotatably mounted roller jacket, which includes an inner chamber containing an annular space containing a heat transfer medium, the axially opposite ends of which are connected to one another by a connecting space located within the inner drum, the inner drum being at least one to the roller shell protruding rib influencing the relative speed of the medium in relation to the roll shell, characterized in that the rib (15) on the inner drum (12) set up for a relative speed deviating from the roll shell (2) runs essentially in the longitudinal direction, and that at least on At one end of the annular space, a paddle wheel (14) is arranged which is fixedly connected to the roller shell. 2. Roller according to claim 1, characterized in that the rib (15) abuts as a scraper (19) on the inside of the roller shell (2). 2nd PATENT CLAIMS 3. Roller according to claim 1 or 2, characterized in that the connecting space (20) contains a heating or cooling device for the medium. 4. Roller according to claim 1, characterized in that the inner drum (12) is fixed.