DE545879C - Automatic flap and flap - Google Patents

Description

Previously used as a closing and non-return device for lines for flowing Liquids or gaseous media used flaps as a movement drive only when the medium in question flows through against the direction of flow effective force component, the resistance, the overcoming of which is permanently the achievement of a not inconsiderable, unproductive Requires work. The energy losses caused by this are, however, still caused by the previous flap arrangements greatly increased that due to the instability of the resulting flow conditions strong oscillations with the slightest fluctuations in flow rates of the flaps occur, which in turn cause considerable eddies and other disturbances.

The present invention eliminates these technical and economic deficiencies in that they are predominantly perpendicular to the direction of flow in certain flow processes occurring, no special effort required force components for the functional purposes of such flaps used, d. H. the lift generated by airfoil or blade-like airflow around it Bodies, as they are known from aviation and turbomachine technology, while at the same time reduced to a minimum Resistance is generated. The buoyancy is used according to the invention by that the actual flap one or more airfoil or blade-like auxiliary organs are grown. This affiliation of special auxiliary organs also has compared to an already known wing-like training the flap itself has certain advantages in that it is a lighter seal and other adaptation of the flaps to the special operating conditions is permitted, the subsequent Attachment to already existing flap devices is made possible and also by the baffle-like effect of the planes Flap on the buoyancy organ has an advantageous effect on the processes, particularly in the first phases of the opening movement.

The subject of the invention is shown in the drawings in two exemplary embodiments shown, namely Figs. 1 and 2 show a simple, in a wind duct of square Built-in cross-section, provided with a buoyancy flap, Figs. 3 and 4 a in a pipeline of circular Cross-section housed flap according to the invention and with an eccentric pivot axis

As shown in FIG. 1 and 2 α on the in line around an upper axis b pivotable flap c only one hydrofoil-like control member D is provided, the valve design has shown in FIGS. 3 and 4 for example, its two d ¹ and d ^s which their functional purpose above and below the here eccentrically loaded

jrerten pivot axis b can be attached with different directions of rotation. The axles leading through to the outside can be provided with counterweights e for partial weight compensation. The retaining rings f and the stops g each limit the outermost pivoting positions of the flaps.

Even the illustrated exemplary embodiments work to a certain extent

ίο the versatility of the subject matter of the invention emerged. In addition, the same can be said about by varying the number, position (e.g. double- and multi-decker-like), shaping, furthermore through movable attachments the buoyancy organs, etc. m. adapt to a wide variety of media and operating conditions. In the latter case, the Buoyancy organs can be adjusted as required with regard to their angle of attack to the flow and can be controlled from the flap movement.

Claims (3)

Patent claims: 1. Automatic non-return and closing flap for liquid, gas and Air ducts, characterized by one or more wing-like control elements attached to the flap, which trigger a buoyancy in the event of a flow movement of the medium in question and make it usable for the opening process and the pendulum-free fixing of the flap in the open position. 2. Non-return and closure flap according to claim 1, characterized in that that the attached hydrofoil-like organs each two or three times on top of each other (multi-decker) are arranged. 3. Non-return and closure flap according to claim 1, characterized in that that the attached wing-like organs are arranged to be movable and adjustable are. 1 sheet of drawings