FR2670690A1 - SONOTRODE WITH CAVITATION PROTECTION LAYER. - Google Patents

Abstract

A rod-shaped sonotrode is proposed which is immersed in a liquid medium to be treated and coupled with an acoustic transformer connected to a high frequency generator and which is made at least partially by a material containing titanium. The oscillating end is provided with a protective layer (8) against cavitation consisting of polycrystalline diamond attached to a metal support (7).

Description

The present invention relates to a sonotrode according to the intro part.

  the main claim.

  Sonotrodes are used in devices called disintegrated

  grators which are used both in the medical field for the disintegration of cells (for example karzinom cells), bacteria (for example bacteria E Koli) and fungi as in the industrial field for the homogenization of water evacuation, the production of emulsions, of dispersion 3 of powder in liquids or also of dispersions of agglomerates in microbiology Usually the sonotrode which is produced in the form of a bar is constituted by a

  titanium alloy and usually it is immersed in a container

  the liquid medium to be treated The sonotrode is excited by a trans-

  ultrasonic trainer which is connected to a high frequency generator for

  oscillate at high frequency It turns out that cavitation in particular

  culier in the case of high power sonotrodes is very important,

  so that the oscillating end of the sonotrode presents damage

  ges due to this cavitation so important after a short period of operation

  even in the case of a very wear-resistant material such as titanium, that the sonotrode must be replaced Since the placement of the sonotrode must be adjusted each time, its replacement takes a long time so that it is not possible to work large quantities of the medium to be treated or to do this only at great cost. The object of the present invention is to provide a sonotrode, in

  especially for high power, which wears very little.

  According to the present invention, this problem is solved by the characteristics

  remarkable features of the main claim in association with

  the characteristics of the introductory part of said claim.

  Because the sonotrode is coated at its oscillating end with a protective layer against cavitation in polycrystalline diamond, the wear due to cavitation is significantly reduced, so that it

  becomes possible to use it in disintegrators which are useful

  sands with high power in a continuous process for the

work from different backgrounds.

  Additional developments and advantageous improvements

  are possible due to the measures indicated in the sub-claims

  tions. It is particularly advantageous to provide, in the case of a plate provided with its protective layer against cavitation, screwed into the end of the sonotrode, a strip or an organic layer

  or a ductile metal strip placed between the end of the sound-

  trode and the plate since thereby radially extending expansion waves are damped, these being of different sizes because conditioned by different materials so that friction between the screwed surfaces results, which causes wear and decoupling of the oscillations between the sonotrode and the screwed plate

  axial oscillations are transmitted unreduced to the trim.

  For small diameters it is advantageous to stick the layer of

  protection against cavitation in a blind hole provided in the end

  mite of the sonotrode, a rib formed in the wall of this bor-

  gene, which penetrates into a groove made in hard metal reinforcing

  thus the collage by the concordance of the shapes of these two reliefs.

  The attached drawing, given by way of example, will allow better understanding

  take the invention, the characteristics it presents and the advantages

  tages it is likely to provide:

  Fig 1 is a partial section of a first example of realization

  station of the sonotrode according to the present invention;

  Fig 2 is a partial section of a second example of realization

  station of the sonotrode according to the present invention; Fig 3 is a partial section of a third embodiment of the sonotrode according to the present invention; Fig 4 is a schematic representation of the device for

  the treatment of a liquid, for example for the stabilization of a

  persion by the use of a disintegrator using a conformal sonotrode

me to the present invention.

  Sonotrode 1 partially shown in fig 1 which is produced

  shaped like a bar is made of titanium or a titanium alloy.

  A tapped blind hole 3 is machined in the end of the sonotrode 1,

  hole in which is screwed the threaded end 4 of a plate 2.

  Simultaneously insert between the end of the sonotrode 1 and

  plate 2 a strip of organic material or a layer of ma-

  organic material or a copper strip which is used to cushion the oscil-

  radial lations It has indeed been found that the coupling by screwing of a couple of different materials such as for example titanium and

  the steel which preferably constitutes the base 2 causes difficulties.

  tees for large amplitudes and high power densities

  as they can occur in disintegrators.

  The excitation of the sonotrode 1 produces both axial oscillations and radially extending expansion waves which can have different values due to the differences in the materials used. This results in friction between the surfaces screwed together which cause the wear and uncoupling by oscillation of the sonotrode 1 and the screwed plate 2 Due to the installation between the sonotrode 1 and the plate 2 of a damping layer 5 constituted by a strip or an organic layer or by a ducti metal strip Le, the radial waves are damped while the axial oscillations are transmitted to the plate 2 without hindrance The layer

  damping 5 has a thickness of about 50 dm.

  On the base 2, a protective layer 8 against cavitation has been reported by means of a solder 6 whose melting temperature is less than 750 ° C. after the introduction of an intermediate support 7,

  this protective layer consisting of polycrystalline diamond

  tallin which is added by sintering on said support 7.

  In fig 2 the protective layer 8 against cavitation in polycrystalline diamond with its support 7 of hard metal is directly brazed on the end of the sonotrode 1, the brazing process being carried out under vacuum or in a protective gas atmosphere by means of a solder 9 bonded with titanium having a melting temperature greater than 800 C and a solder 10 added to the hard metal having a

  melting temperature below 750 C.

  FIG. 3 represents an exemplary embodiment which is particularly

  Rely suitable for sonotrodes 1 of small diameter, preferably for diameters between 1 and 3 mm. A blind hole 11 is made in the end of the sonotrode 1 and a very small transverse hole 12 is provided, for example having a diameter between 0.1 and 0.3 mm which communicates with the blind hole 11 We introduce into

  the blind hole 11 of the glue, preferably an epoxy resin and the support

  port 7 with its protective layer 8 against cavitation in polycrystalline diamond is pressed into the hole 11 filled with epoxy resin Therefore the glue 13 is pushed into the transverse hole 12 and eventually flows into the residual wall 14 on brings in a rib which enters a correspondingly shaped groove made

  in hard metal 7 As the edge of the sonotrode 1 remains without cavi-

  Because of the physical conditions, no sign of rupture appears.

will re-appear on the residual wall.

  FIG. 4 represents the sonotrode 1 according to the present invention as a component part of a disintegrator 15, the latter then being

  immersed in a liquid circulation tank 16 The circulation tank

  tion 16 is connected to a storage container 20 through a supply line 17 and a valve 19 controlled by a micro-processor 18 An evacuation line 21 connects the circulation tank 16 to a collecting container 22 Furthermore a cooling circulation system 23 is connected with the tank

  circulation 16 and is used to cool the latter Vibra-

  tions are generated in an acoustic transformer 25 powered by a high frequency generator 24 and are transmitted to the sonotrode 1 via an anvil 26 stepped to be applied in the middle

  liquid passing through the circulation tank 16.

  The storage container 20 contains, for example, an emulsion which must be stabilized. The microprocessor 18 regulates the through flow using the valve 19, the emulsion entering the circulation tank 16 via the line d 'feed 17 In the area below the sonotrode 1, the different phases of the emulsion are homogenized due to the pressure waves and after the treatment the emulsion thus treated arrives in the collecting container 22 via the line d 'Evacuation The through flow can be controlled by the microprocessor 18 continuously or discontinuously, treatment without interruption is however always carried out.

  It should also be understood that the above description has not

  given as an example and does not limit the area

  ne of the invention which we would not leave by replacing the details

  of execution described by all other equivalents.

Claims (8)

R E V E N D I C A T I ONS   1 Sonotrode having a bar shape and immersed in a liquid medium to be treated, which is coupled with an acoustic transformer connected   to a high frequency generator and which is constituted at least by   tially by a material containing titanium, characterized in that its oscillating end is provided with a protective layer (8) against the effects of cavitation in polycrystalline diamond attached to a metal support (7).   2 Sonotrode according to claim 1, characterized in that the metal support (7) of the protective layer (8) against the effects of   the cavitation is connected by brazing to a steel plate (2), the as-   flange (2) being screwed into the end.   3 Sonotrode according to any one of claims 1 or 2, ca-   characterized in that a cushioning layer (5) is deposited between   said end and the plate (2).   4 Sonotrode according to claim 3, characterized in that the damping layer (5) is formed by an organic layer, a   organic strip or a ductile metallic strip.   Sonotrode according to any one of claims 3 or 4,   characterized in that the damping layer (5) has a thick sor between 25 and 75 / m.   6 Sonotrode according to claim 1, characterized in that the metal support (7) of the protective layer against cavitation is connected directly by vacuum brazing or under gas protection with the end containing titanium.   7 Sonotrode according to claim 1, characterized in that its end has a blind hole (11) in which the protective layer (8) against cavitation is glued to the metal support (7), a rib being formed in the wall (14) blind hole, rib which   fits into a corresponding groove in the layer (7) of hard metal.   8 Sonotrode according to claim 7, characterized in that the blind hole (11) communicates with a transverse hole (12) which serves to   receive and run the glue (13).   9 Sonotrode according to any one of claims 1 to 8,   characterized in that it is placed in a circulation tank (16) of a disintegrator (15) through which the medium to be treated circulates   continuously or in small successive quantities.