RU2000112096A - GENERATOR OF FLUID VIBRATIONS WITH EXTENDED GAP - Google Patents

Claims (11)

1. A fluid oscillation generator symmetric with respect to the longitudinal plane of symmetry (P), the opening (22) of which provides a fluid supply to the chamber (24), called the oscillation chamber, in the form of a two-dimensional jet of fluid oscillating transversely relative to the plane of symmetry (P) a direction containing an obstacle (26), occupying the main volume of the indicated oscillation chamber, having a front wall (40) with a recess (42) located opposite the inlet, and washed by a stream of oscillating fluid from characterized in that on one side of the hole (22) there are two side walls (34, 36), extending it so as to form a nozzle inside the vibration chamber in the direction of the obstruction with a dimension in the longitudinal direction strictly smaller than the distance between the hole and the front wall of the obstacle and so that the edge of these walls is not too close to the recess (42).  2. A fluid oscillation generator according to claim 1, wherein the side walls (34, 36) are substantially parallel to each other.  3. The oscillator of the fluid according to paragraphs. 1-2, in which the longitudinal dimension Le of the side walls (34, 36) is in the range of 0.75b and 1b, where b is the transverse dimension or width of the hole (22).  4. A fluid oscillation generator according to claim 3, wherein the longitudinal dimension Le of the side walls is substantially b.  5. The fluid oscillation generator according to paragraphs. 1-4, in which the front wall (40) of the obstacle (26) has two frontal mostly flat surfaces (44, 46) surrounding the recess (42) in this obstacle, the plane of each of these surfaces being essentially perpendicular to the longitudinal plane symmetry (P).  6. The fluid oscillation generator according to claim 5, in which the oscillation chamber (24) has two sections of the walls (30a, 32a) located on one and the other side of the hole (22), and on them there are surfaces opposite to the corresponding frontal surfaces (44, 46) are obstacles and essentially parallel to them.  7. The fluid oscillation generator according to claim 5, wherein the recess (42) is defined by a surface that, on the one hand, has two straight sections (42a, 42b) substantially parallel to the longitudinal plane of symmetry ( P) where this surface is connected to each of these frontal surfaces (44, 46), and on the other hand, a semicircular shape (42c) connected to these straight sections.  8. The fluid oscillation generator according to paragraphs. 1-7, in which the part of the recess (42), the farthest from the hole (22), is at a distance Lo from the front wall (40) of the obstacle (26), comprising 2.2b to 2.5b, where b is equal to the transverse dimension or hole width.  9. The fluid oscillation generator according to paragraphs. 1-8, in which the distance L between the hole (22) and the front wall (40) of the obstacle (26) is from 2.8 to 3.2b, where b is equal to the transverse size or width of the hole.  10. The oscillator of the fluid according to paragraphs. 1-9, comprising at least two sensors (48, 50) for detecting changes in velocity or pressure in the fluid stream.  11. The fluid oscillation generator according to claim 10, wherein the sensors (48, 50) for detecting changes in velocity in the fluid stream are located near the nozzle edge.