DE880516C - Device for generating sound waves, in particular ultrasonic waves, for treating substances - Google Patents

Description

Device for generating sound waves, in particular ultrasonic waves, for treating fabrics The invention relates to a standard for production of sound waves, in particular ultrasonic waves, for the treatment of substances.

In many cases the task here is direct contact to avoid the elelitroacoustic transducer with the material to be treated; for metal or glass melting e.g. 13. The sound generator must protect against the influence of high temperature to be protected. For this purpose one has between the sound generator and the container an isolating liquid is switched on to take up the material to be treated. Here However, sound transmission is associated with considerable energy losses. alum has therefore already tried to find a magnetostrictive stal) sehxvinger on one To provide the end with a protective coating, e.g. made of porcelain, and to put it in to immerse the item to be treated. Here too, however, occur insufficiently as a result strong coupling between the transducer and the coating, which in the Operation can be increased by further loosening the protective cover.

According to the invention, a firm and reliable coupling between Achieve sound generator and separator in that both the transducer and the partition that transmits the sound to the material to be treated is closed Have annular shape and with mutual adaptation of the enclosing The outer surfaces are firmly clamped together.

Here there is the advantageous possibility that optionally the after Sound radiation directed inwards or outwards can be used for sound treatment can. If you want to use the sound generator z. B. use as immersion or stirring body, so the radical external radiation is expediently brought into effect and the enveloping body designed so that it tightly encloses the outer surface of the transducer and the transducer also covers at its lower end face. The utilization of the internal radial radiation The ring oscillator is characterized by an effective sound treatment as well as also characterized by a particularly simple structure and great strength. In both Cases, the outer and inner arrangement of the protective wall, can be their bracing achieve with the oscillator in a particularly simple manner that the outer Ring body is shrunk onto the inner body.

The invention is illustrated using several exemplary embodiments.

Fig. I shows an arrangement for sound treatment as an immersion body trained oscillator, Fig. 2 an arrangement for sound treatment with outside The vibrator arranged in the container, Fig. 3 is a modification of the one shown in Fig. 2 Embodiment, Fig. 4 is a front view of Fig. 3.

In the exemplary embodiment according to Fig. I, I is a ring-shaped Magnetostriction oscillator built up from sheet metal lamellae, which is driven by a winding 2 is excited to radial vibrations by a high frequency generator. Of the Magnetostriction oscillator I, together with its winding 2, is made of an enveloping body 3 and lies with its outer surface firmly against the inner wall of this Enveloping body. This can e.g. B. can be achieved in that the enveloping body the ring oscillator is shrunk on. The enveloping body 3 consists of hard porcelain and has the task, on the one hand, of the ring oscillator 1 with its winding 2 against the heat of the molten metal to be treated or another highly heated one To protect mass and, on the other hand, to prevent contamination of the substances to be treated to prevent by decomposition of the transducer material. The transducer 2 with enveloping body 3 is used for treatment, for example of molten metal, in a crucible 4 or other, the melt containing container immersed and can be used to achieve a uniform treatment of the entire mass, a stirring movement in the container 4 run.

In the embodiment of Fig. I, the radial radiation is the outer circumferential surface of the ring oscillator on the mass to be treated to the effect brought. In contrast to this, Fig. 2 and 3 show exemplary embodiments in which the inner surface of the transducer acts as an effective beam surface.

In the embodiment of Fig. 2, the ring oscillator S is on the shrunk cylindrical outer surface of a crucible. The sound radiation occurs here through the crucible wall.

In order to achieve a uniform treatment of the in the Crucible 6 located melt these are moved by an agitator.

In the embodiment of Figs. 3 and 4, the magnetostriction oscillator 7 is shrunk onto a flow tube 8 for the molten metal.

This flow tube can again be made of hard porcelain or some other be made of heat insulating material.

The use of a ring oscillator for sound treatment is guaranteed an extraordinarily effective all-round effect of the sound on those to be treated Fabrics and also enables a particularly easy and secure connection with the heat-insulating partition. The internal arrangement is that containing the melt The container or tube is particularly advantageous because the container or the The pipe is subjected to pressure by the pressure exerted by the ring oscillator Most of the materials or materials that can be used to manufacture the container However, materials, e.g. porcelain, have a particularly good resistance to pressure loads particularly high strength.

The invention is not restricted to the examples shown; on the contrary, many changes and other designs are still possible.

If necessary, the resonance of the substance to be treated can also be used can be exploited by changing the container for the substance to be treated accordingly is measured. In the embodiment example Fig. 3 and 4 is useful here a long tube length in relation to the wavelength for the flow of the to be treated Substance used. The separating body is used in the illustrated embodiments not excited to independent natural oscillations, but forms part of the Ring oscillator. If necessary, its natural resonance can also be used.

The ring oscillator can also be made from a closed ring instead of be composed of individual rod vibrators, which are radially arranged in a circle around a web or are otherwise firmly connected to each other.

The ring can be out of round.

Finally, the invention is not only for the treatment of molten metals or other substances at high temperature, but can also use with advantage for other purposes, e.g. B. for the treatment of milk or of Chemicals. The partition wall has to take on the task of counteracting the oscillator To protect substances that attack it or impurities in the material to be treated Avoid the substance or allow the substance to flow through or penetrate between the To prevent slats of the transducer.

Claims (6)

PATENT CLAIMS: I. Device for generating sound waves, in particular Ultrasonic waves for the treatment of substances in which the sound of one magnetostrictive transducer through a partition wall on the to be treated Substance is transferred, characterized in that both the oscillator (I, 5, 7) as well as the partition that transmits the sound to the material to be treated (3, 6, 8) have a closed annular shape and with mutual adaptation the circumferential surfaces surrounding each other are firmly clamped together. 2. Apparatus according to claim I, characterized in that when used of the ring oscillator as an immersion body, the enveloping body formed by the partition wall Enclosing the oscillator and not only around the outer surface, but at least at least is also closed at the lower end. 3. Apparatus according to claim I, characterized in that the through the body formed by the partition is enclosed by the ring oscillator and as a container is designed to receive the substance to be treated. 4. Device according to claims I and 3, characterized in that that the melt or the like. Receiving container as a flow tube for the melt or other mass to be treated is formed. 5. Device according to claims I to 3, characterized in that that the separating body is excited to natural vibrations, so that it is with the sound generator forms a coupled oscillation system. 6. Apparatus according to claim I to 5, characterized in that the outer ring body is shrunk onto the inner body. Referenced publications: Austrian patent specification No. I42 886; L. Bergmann, "Der Ultraschall", 2nd ed., 1939, pp. 13, 45, 279.