FR2498866A1 - Case for electroacoustic transducer for high hydrostatic pressure - has double wall separated by gas under pressure and contained in vulcanised rubber skin - Google Patents

Abstract

The transducer has an inner and outer wall between which is a gas chamber for which an inlet connection allows pressurisation to a predetermined value. The counterweight and a stack of piezoelectric discs are transversed by a prestressed shaft which also permits mounting to a support. The transducer assembly is contained in a skin and is retained in position by metallic retaining rings at its ends. At the emitting cone end is a centering assembly carried by shafts fixed to the support. The skin is formed from synthetic fibre threads impregnated with rubber and then vulcanised. This prevents entry of all except very small foreign bodies to the area over the membrane over the emitting cone area.

Description

Holding case for electroacoustic power transducer subjected to high hydrostatic pressures
The invention relates to a holding casing for an electroacoustic power transducer subjected to high hydrostatic pressures.

 We know, in particular by French patent No. 2085545 "High power electroacoustic transducer designed for high hydrostatic pressures", transducers at least the motor consisting of a stack of piezoelectric discs is separated from the ambient medium by a layer of gas ensuring the acoustic decoupling and a rubber membrane.

 One can use a double membrane, consisting of two flexible walls delimiting between them a gas chamber; this solution makes it possible to isolate the organs constituting the transducer and in particular the stack of piezoelectric discs from the gas; whether the membrane is single or double walled, the enclosed gas must be at a certain initial pressure, and the membrane alone does not resist by itself. A metallic holding casing is therefore used, against which the membrane is pressed when the gas is introduced at the desired initial pressure; the transducer is then subjected to a force which tends to make it come out of the casing which obliges to maintain the transducer rigidly, either from the front or from the back, using a suspension to prevent it from going out .When the device is submerged to a certain depth, water enters the casing through holes provided for this purpose, and settles between the membrane and the casing; the transducer is then under pressure. The transducer is therefore subjected to variable forces depending on the immersion, and the coupling between the transducer and the casing varies; these variable forces create disturbances in the operation of the transducer and a loss of efficiency.

 Furthermore, when water enters the orifices of the casing, it causes undesirable bodies such as, for example, sand, microorganisms, larvae, which are not necessarily expelled when the transducer is removed from the water; these different bodies are then trapped between the casing and the membrane and build up premature wear of said membrane.

 The object of the present invention is to eliminate the coupling of the transducer with the casing and to improve the operation of the transducer.

 The invention also aims to significantly reduce the introduction of foreign bodies between the housing and the membrane.

 The subject of the invention is a holding casing for an electroacoustic power transducer subjected to high hydrostatic pressures comprising a motor constituted by a stack of piezoelectric discs, a horn, a counterweight, a prestressing axis, a layer of gas and a membrane. separating at least the engine from the ambient environment, said membrane comprising a filling connection, characterized in that the casing is constituted by a resistant skin, comprising a first rod at one end and a second rod at another end, than the prestressing axis is inserted through the first rod, the diameter of which is just sufficient to allow passage to the prestressing axis, that the second rod is forced into a groove in the roof located at the periphery of the latter near its front face, and that the skin has a passage orifice for the filling connection.

The invention will be better understood from the description which follows of an embodiment illustrated by the appended figures in which
FIG. 1 relates to the prior art and represents in section a transducer mounted in a casing, FIG. 1 representing the transducer before immersion and FIG. 1b representing the same immersed transducer,
FIG. 2 shows in partial section a transducer of the invention before introduction of the gas under pressure,
FIG. 3 shows in partial section a transducer of the invention after introducing the gas under pressure.

 In FIGS. 1a and 1b which illustrate the use of a casing to hold a flexible membrane and represent, respectively, in section a transducer before immersion and a submerged transducer, 1 is a metal casing comprising orifices 2 throughout the thickness of the casing, 3 is a countermass, 4 a motor constituted by a stack of piezoelectric discs, 5 is a horn, 6 is a prestressing axis also used for fixing the transducer by a nut 7, 8 and 9 are respectively an internal wall and an outer wall of a flexible membrane delimiting between them a gas chamber 10; 11 is a filling connection communicating with the gas chamber 10, 12 is a front membrane connected to the membrane formed by the two walls 8 and 9, the connection 13 being located at the periphery of the pavilion 5.

 In the figure, the transducer not being immersed and the gas chamber 10 being filled with gas under a determined pressure, the external wall 9 of the membrane is applied against the casing 1.

 In FIG. 1b the transducer of FIG. 1a is immersed in a liquid of sea water for example; when the immersion depth is sufficient for the pressure of the liquid to be greater than that of the gas in the gas chamber 10, this pressure, which is exerted on the external wall 9 of the membrane by the liquid present in the orifices 2 , pushes said outer wall 9 of the housing and the liquid penetrates between the housing 1 and the external wall 9.

 Figures 2 and 3 show, in section, a transducer of the invention, Figure 2 showing a transducer before filling the gas chamber, Figure 3 showing the transducer after filling the gas chamber, but not submerged.

 In these figures we find, as in Figures la and lb, a TONPILZ type transducer, comprising a countermass 3, a motor 4, a horn 5, a prestressing axis 6, a nembrane having an internal wall 8 and an external wall 9 which delimit between them a gas chamber 10, a filling connection 11 and a front membrane 12 connected to the membrane constituted by the two walls 8 and 9, the connection 13 being located at the periphery of the pavilion 5. In these figures, as also in Figures la and lb, the membrane comprises, by construction, only one wall before the connection 13 with the front mambrane 12, and around the preload axis 6, so that the seal of the gas chamber is not affected when the front diaphragm is connected to the diaphragm.

 In FIGS. 2 and 3, the transducer is fixed to a support 14 via the preload axis 6, using two nuts 15 and 16. Before entering fixed on the support 14, the transducer is introduced into a relatively flexible but resistant skin 17, in the general shape of a bell, for example; this skin comprises two rods 18 and 19, metallic, at its ends, a first rod 18 delimiting at the top of the bell a hole whose diameter is just sufficient for the passage of prestress 6, a second rod 19, at the base of the bell, being forced into a groove 20 of the roof 5, at the end thereof; the skin 17 also has an opening near the first rod for the passage of the filling connector 11. A centering device 21, carried by rods 22 fixed on the support 14, ensures the centering of the transducer and of the second rod 19 which it tightly surrounds, so that said second rod 19 is retained between the centering device and the roof, so that it cannot escape under the effect of the forces due to the inflation of the gas chamber.

 The centering device 21 is constituted for example by a ring or by segments of circular shape, the segments constituting a ring or being spaced from one another.

 The skin 17 consists of a canvas of resistant threads of synthetic fibers impregnated with a flexible product such as for example rubber which is then vulcanized.

 At the ends of the skin the canvas is turned up and stopped around the rods. In order to allow water to pass through the skin, it is possible not to impregnate one or more zones of the skin, or even to make small holes in the skin.

 In FIG. 2 the gas chamber 10 is not under pressure and the two walls 8 and 9 are very close to each other.

 In FIG. 3, the gas chamber 10 is under pressure and the external wall 9 is applied against the skin 17.

 When the transducer, skin 17 and support 14 assembly is immersed to a depth such that the pressure is greater than that of the gas in the gas chamber 10, the pressure is exerted on the external wall 9 of the membrane via liquid holes; the external wall 9 is pushed back from the skin and the liquid penetrates between the skin and the external wall 9.

 The casing being replaced, according to the invention, by a relatively flexible skin, the undesirable coupling between the transducer and the casing is therefore eliminated. The metal casing has, throughout its thickness, orifices the diameter of which must necessarily have a certain value, for machining reasons; on the other hand, the skin may have very small holes, the diameter of which may be at least 10 times smaller than that of the orifices in the casing if the skin does not have holes, but non-impregnated areas are the mesh of the canvas which act as holes to let the liquid pass, and in this case also the dimensions of the meshes are very much smaller than those of the orifices of the casing. The skin according to the invention therefore makes it possible to considerably reduce the introduction of foreign bodies between it and the external wall of the membrane, the introduction of foreign bodies being limited to bodies having very small dimensions, which is obviously less harmful. for the outer wall 9.

 A bell-shaped skin has been described and shown, this only by way of example, because it is possible to give another shape to the skin without departing from the invention.

 There has also been described and shown, by way of example, a transducer comprising a membrane with two walls; of course the invention also applies to electroacoustic transducers with an air layer and to a single-walled membrane such as for example the transducer which is the subject of the French patent cited in the introduction.

Claims (9)

1 / Holding casing for an electroacoustic power transducer subjected to high hydrostatic pressures comprising a motor constituted by a stack of piezoelectric discs, a horn, a counterweight, a preload axis, a layer of gas and a membrane separating at least the motor from the ambient environment, said membrane comprising a filling connection, characterized in that the casing is constituted by a resistant skin (17), comprising a first rod (18) at one end and a second rod (19) at another end , that the preload pin (6) is inserted through the first rod, the diameter of which is just sufficient to allow passage to the preload pin, that the second rod (19) is force-fitted into a groove (20 ) of the roof (5) located on the periphery thereof and close to its front face, and that the skin has a passage orifice for the filling connection (11). 2 / holding housing according to claim 1, characterized in that it also comprises a centering device (21) of the second rod (19) connected to a support (14) to which the transducer is also fixed by the axis of preload (6), said centering device holding in place the second rod (19). 3 / holding housing according to claim 1, characterized in that the skin (17) is a canvas of synthetic fibers impregnated with a flexible product and that it has passage points for a liquid in which the transducer is immersed . 4 / holding housing according to claim 3, characterized in that the points of passage of the liquid are formed by areas of the fabric not impregnated with flexible product. 5 / holding housing according to claim 3, characterized in that the points of passage of the liquid consist of small holes in the impregnated fabric. 6 / holding housing according to claim 3, characterized in that the flexible product is vulcanized rubber. 7 / holding housing according to claim 2, characterized in that the centering device (21) is a ring. 8 / holding housing according to claim 2, characterized in that the centering device (21) consists of segments forming a ring. 9 / holding housing according to claim 2, characterized in that the centering device (21) consists of segments spaced from each other.