DE258020C - DISCHARGE DEVICE FOR FAN OR PROPELLER WORKING WING SCREW WITH FIXED GUIDE WINGS OPPOSED TO THE SCREW WINGS - Google Patents

Description

IMPERIAL

PATENT OFFICE.

t-

With fans, turbines, pumps, reaction propellers, etc., one often has so-called Arranged effusors, occasionally consisting of stationary, opposite to the Guide vanes placed on the screw vanes. The well-known effusor is in the direction of flow arranged behind the impeller. The common construction of the same is based on the same basic idea as the

ίο of the supply apparatus (stator) of a turbine. It is only intended to change the direction of the liquid jet. Therefore the fact that a turbine changes into a pump by kinematic reversal, where the original stator becomes the effuser. In contrast, the invention is a diversion device, which does not and cannot act as an effusor because the blades of the device carry the liquid jet do not divert it from its direction of movement, but cut it through. They do that because the guide vanes are the diversion device are curved such that the trailing edges of the helical vanes from the edges of the guide vanes at the respective over-. intersection are essentially crossed at right angles. With this new arrangement a success completely different from the effusor is achieved, namely the cutting through of the vortex filaments that necessarily form on the back of the impeller blade. Purpose-

The device is designed in such a way that the inlet and outlet edges of the guide vanes lie on a conical surface.

On the drawing is the new diversion device with a wing screw after a older invention of the inventor in Fig. 1 in longitudinal section and in Fig. 2 in a view shown by the wing screw. In Fig. 2, however, there is only one of the screw wings drawn.

It is α the hub body of the wing screw, b are its wings. The hub body, which tapers towards the outlet end, continues in the correspondingly shaped core piece c of the diverting vane ring. The diverting vanes are denoted by d, d and the frame of the vane ring that is tapered and sharpened from the inside towards the wing screw is denoted by e . Profiles 1, 2, 3, 4, 5, 6, 7, 8 show the development of the guide surface of diverting vanes d, which are dotted over the corresponding base circles in FIG. 2. The direction of rotation of the wing screw is indicated by an arrow α. The dash-dotted arrow β indicates the approximate direction of the resultant from the wing action that simultaneously and axially grasps and pulls the liquid. Essentially in the direction of this arrow, the liquid flows through the wing screw at an angle towards the axis. Now the stationary deflecting vanes d positioned opposite to the screw vanes are curved in such a way that the trailing edges of the screw vanes are crossed at right angles or approximately at right angles by the edges of the guide vanes at the respective intersection point. This will

Claims (2)

achieved that the vortices forming behind the wing screw are cut and at the same time a diversion of the liquid flow takes place, the essential direction of which is indicated approximately by the dash-dotted arrow γ. The diversion device has the same effect for working as a fan or propeller Wing screws can be used. Godfather ν τ-A ν Proverbs: i. Diverting device for wing screws working as a fan or propeller with fixed guide vanes placed opposite to the screw vanes, thereby characterized in that the guide vanes of the diversion device are curved such that the trailing edges of the screw vanes from the edges of the guide vanes at the respective point of intersection be crossed at right angles or approximately at right angles for the purpose behind to cut the ring vortices occurring on the screw blades. 2. diversion device according to claim 1, characterized in that the inlet and The trailing edges of the guide vanes lie on a conical surface. 1 sheet of drawings.