NO762560L - - Google Patents

Description

The invention relates to a static ultrasound generator. For such purposes, flutes have long been known, which, however, only make it possible to transmit a small effect at frequencies in the ultrasound range. For various control tasks, one would like to have at their disposal ultrasonic generators that have greater power, sufficient to influence relays without the use of power amplifiers. Such generators are e.g. desirable for controlling installation devices with ultrasound.

Known dynamic ultrasound generators such as hole sirens have the disadvantage that for many purposes they cannot be built accurately enough. In addition, the reaction time from connected signaling to a useful signal with such generators is too long.

The invention is based on the task of developing a static ultrasound generator whose effect is significantly greater in relation to the volume than with known ultrasound whistles,

The solution to this problem is that there in the axial

in the center of a ring alloy with a radially inward-facing egg, a center piece is arranged which forms an annular rotor which has central gas supply channels, and which, in the radially outward direction, transitions into a slot directed towards the egg. This ultrasonic generator provides a ring of air which in cross-section has a wedge-shaped profile with a radially outward tip. Thanks to the annular gas distribution, a thin

rim which can easily swing in relation to the egg and thus forms a soft ring-shaped rim. It is therefore enough to have a gas flow with a small effect to make the ultrasound generator oscillate. This generator has a good degree of efficiency and can be operated with air with little overpressure,

and at the same time, the short turnaround time means that the generator can work practically instantaneously and the efficiency is further increased. On the other hand, due to the naturally soft ring edge of the gas stream, a very powerful gas stream can be added to the middle piece, so that a large effect can be radiated in the ultrasound area.

The ultrasound generator can have a simple construction, e.g. in that the ring body and the middle piece are mounted on a base body which, together with the middle piece, delimits the ring-shaped space.

If the ring body together with the base body forms a resonance space located axially below the edge, it is possible to achieve a particularly surge-free operation. . A gas ring with particularly favorable properties is obtained if the gas guide channels open tangentially into the ring space. The middle piece and the ring body can be arranged axially adjustable in the base body, whereby it is possible to set a particularly surge-free operation at a stable frequency. The radiation characteristics are significantly affected by the surfaces of the annular body and the middle piece. Appropriately, the annular body and the middle piece axially above the annulus form surfaces that slope towards each other in profile.

The invention will be elucidated in more detail by means of an exemplary embodiment which is illustrated very schematically in the drawing.

In the axial center 1 of an annular body 2, there is placed a middle piece 3. The annular body 2 is designed with a radially inward-facing egg 4. The middle piece 3 limits an annular space 5 which acts as a ring-source stowage rora connected to central gas supply channels 6. in a radially outward direction, the annulus 5 passes through a gap 7 which is aligned with the edge 4. In the embodiment, the gap 7 aligns just on the underside of the edge 4. It is essential that the air stream that leaves the gap 7, only for a Part of the incoming wave is deflected into the resonance space 9. This ratio favors a short swing-in time and contributes to a good efficiency, It is advantageous if the egg with its underside in the direction of the slot 7 is flush with the upper edge of the slot, i.e. is made flat.

The annulus 2 and. the middle piece 3 is in the design example mounted on a base body 8. The middle piece 3 together with the base body 8 bounds the ring space 5. The ring body 2 in turn bounds together with the base body 8 a resonance space 9 located axially below the edge. In the ring space 5, which on the gap 7 is closely separated from the resonance space 9 by an annular step on the base body 8, an air buildup occurs there which ensures that an even ring of gas is blown out through the gap 7 in the direction of the edge 4. A gas ring with particularly favorable • properties are obtained if the gas supply channels 6 open tangentially out 1 the annulus 5. A nipple 10 formed on the base body 8 can facilitate the connection of hoses for gas supply.

The frequency of the radiated ultrasound energy can be changed in a simple and effective way by placing rings 11 in the resonance space 9 which limit it radially outwards. If the ring body 2 is arranged axially adjustable in the base body 8, the position of the egg 4 can be changed in particularly fine steps and set optimally with a view to maximum radiation of energy. It will be understood that based on the dimensions of established favorable operating conditions, simplified ultrasound generators can also be built.

The annular body 2 and the juidtpiece 3. above the annular space have surfaces that slope towards each other in profile. At the slope of these surfaces, the radiation characteristic is determined.

To make it possible to adjust the center piece 3 by means of its threaded connection 13 with the base body 8, the center piece can be provided with a slot 12 for a wrench. With a further threaded connection 14, the ring body 2 in the embodiment can be set axially in the base body 8. For this purpose, the ring body 2 can be grasped by its outer edge 15.

Claims (9)

1. Static ultrasound generator, characterized in that in the axial center (IL of an annular body (2 in. with radially inward-facing egg (4)) a center piece (3L which limits an annular space (51) which has central gas supply channels (6L and in direction radially outwards passes into a slot (7L radially aligned with the edge (51. 2.Ultrasound generator as stated in claim 1 (characterized in that the ring body (21 and the middle piece (3L) is held by a base body (81) which together with the middle piece (31) delimits the ring space (51. 3. Ultrasound generator as stated in claim 1 or 2, characterized in that the ring body (21) together with the base body (8) delimits a resonance space (9) located axially below the edge (4). 4. Ultrasound generator as specified in claims 1 and 2, characterized in that the gas supply channels (6) open tangentially into the annulus (5). 5. Ultrasound generator as specified in claims 1-3, characterized in that the base body (8) forms an annular step between the resonance space (9) and the ring space (5). 6. Ultrasound generator as specified in claims 1 and 3, characterized by insert rings (11). which limits the resonance space (9) in a radially outward direction. 7. Ultrasound generator as specified in claim log 2, characterized in that the middle piece (3). is arranged axially adjustable in the base body (81. 8. Ultrasound generator as stated in claims 1 and 2, characterized in that the ring body (21) is arranged axially adjustable in the base body (81. 9. Ultrasound generator as stated in claim 1 and one of the claims 2-7, characterized in that the annular body (21 and the middle piece (3)) axially above the annular space (51) have surfaces that slope towards each other in profile.