DE1842581U - ACCUMULATION CONE FOR PRESSURE EQUALIZATION IN PIPELINES. - Google Patents

Description

The present innovation relates to adjustable storage cone parts Creation of pressure equalization in pipelines.

For shutting off or throttling air flows in pipelines Known throttle valves. They consist of round or square discs, whichever be rotated about an axis according to the shape of the air duct. This creates a wanted, Artificial flow resistance is established or the air flow is completely shut off.

The disadvantage of such a design is the unfavorable flow Throttle valves and their easy adjustability.

It is also known that the air in pipes with a fixed put the system through so-called cone devices to throttle.

These are funnel-shaped constriction parts that are inserted into the pipes and so at a certain point the air passage counteract a corresponding resistance by narrowing the cross-section. These The device is essentially used in the case of a widely spread pipeline system If possible, set the desired suction speed once at each point to be suctioned and on the other hand to equalize the pressure of the entire system.

These cone parts must, however, be used for the respective flow through Air volume and thus calculated and constructed for the desired pressure destruction will. This means that for different intake pipes in a pipe system miu different diameters also different cone parts are necessary to one bring about exact pressure equalization.

It was the task of the present innovation to provide a damming device create which over a larger area for different pipelines can be used with different diameters.

This object is achieved in that the cone is made of flexible Material consists and has prepared uetschfalcn 2, which can be squeezed together are. It is advisable that the flange 3 and the cone 5 consist of one piece.

In the present innovation, the cone consists of wire reinforced flexible plastic or sheet metal, which is easily preformable. The enclosed Drawing illustrates the present innovation.

Fig. 1 shows a longitudinal section, Fig. 2 is a plan view of an innovation according to the invention Damming cone Fig. 3; 4 and 5 show a storage cone according to the invention in perspective Opinion.

The flow cone of the cone after the. present innovation is provided with such a tapering angle that a narrowing of the outlet cross-section 1 can be achieved by twice or more. Those arranged on the circumference of the cone Pinch folds 2 can be easily squeezed together by hand, using a be squeezed together with simple pliers or by means of a simple flanging machine. The conical flange 3 is held so that it has several adjacent pipe diameters covered and therefore installed in pipelines of various diameters can. If the material is made of plastic, there is no need to seal the flange 3 to flange 4. These cone parts are usually directly above the suction hood attached to allow subsequent adjustment without difficult dismantling if possible to be able to make.

In the case of the present innovation, the storage cone can be both round (see Fig. 5) as well as a square or a rectangular cross-section (see Figures 3 and 4); this is the folding of the pinch folds 2 made so that the original cross-sectional shape is retained.

- protection claims-

Claims (6)

Claims for protection 1. Damming cone for producing the pressure equalization in pipelines, characterized in that the cone is made of flexible material exists and has prepared pinch folds (2) that can be squeezed together. 2. cone according to claim 1, characterized in that the flange (3 and cone (5) consist of one piece. 3. cone according to claims 1 and 2, characterized in that the air outlet cross section (1) by more than half over that arranged on the circumference Pinch folds (2) can be pulled together. 4. cone according to claims 1 to 3, characterized by a round one Cross-section, which after the folding of the pinch folds (2) is its original Maintains cross-sectional orm. 5. cone according to claims 1 to 3, characterized by a square Cross-section, which after the folding of the pinch folds (2) is its original Maintains cross-sectional shape. 6. cone according to claims 1 to 3; marked by a rectangular cross-section, which after folding the pinch folds (2) retains its original cross-sectional shape.